Stem-Progenitor Cell Specific Micro-Ribonucleic Acids and Uses Thereof

ABSTRACT

Provided herein are methods and compositions for modulating the differentiation of incompletely differentiated cells, such as stem-progenitor cells, e.g., hematopoietic stem-progenitor cells. A method may comprise contacting a cell with an agononist or an antagonist of a miRNA comprising a nucleotide sequence from SEQ ID NO: 1-34.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Patent Application No. 60/872,764, filed on Dec. 4, 2006, the content of which is specifically incorporated by reference herein in its entirety.

GOVERNMENTAL SUPPORT

This invention was made with governmental support under grant numbers CA70970 and CA60441, awarded by the U.S. National Institutes of Health. The government has certain rights in this invention.

BACKGROUND

MicroRNAs (miRNAs) consist of a class of epigenetic elements that inhibit translation of mRNA to protein and also may result in gene silencing through chromatin remodeling (1). miRNAs have been identified in many organisms, including plants, Drosophila, rats, mice, and humans, where they have been shown to control major cellular processes, including metabolism, differentiation, and development (2). miRNAs have been implicated in the differentiation of mammalian blood cell lineages. miRNA-181 seems to bias mouse lymphoid progenitors toward B lymphoid development, and miRNA-146 and -223 bias toward T lymphopoiesis (3). miRNA-221 and -222 are critically involved in the negative control of human erythropoiesis (4) and miRNA-223 in the down-regulation of mouse granulopoiesis (5). Given that miRNAs regulate normal cellular functions, it is not surprising that miRNAs also are involved in carcinogenesis. miRNAs have been identified at deleted or amplified genomic regions or translocation breakpoints in human cancers (6); e.g., miRNA-15 and -16 are the critical genetic elements deleted from 13q14 chromosomal region in a subset of chronic lymphocytic leukemia cases (7).

SUMMARY OF THE INVENTION

Provided herein are methods of modulating the differentiation or proliferation of an incompletely differentiated cell, e.g., a stem-progenitor cell, such as a hematopoietic cell. A method may comprise contacting a cell with a miRNA of one or more of SEQ ID NOS: 1 to 34 (Table 1). Contacting may comprise providing an miRNA to said cell, or providing an expression construct encoding said miRNA to said cell. The cell may be located in an animal subject, such as a human, or the cell may be contacted in vitro, wherein the method may comprise further culturing of said cell with or without reintroduction into an animal.

In yet another embodiment, there is provided a method of modulating the proliferation or differentiation of a cell, e.g., a hematopoietic cell, comprising contacting said cell with an agent that is an antagonist of the function or expression of the miRNAs of SEQ ID NOS: 1-34 (Tables 1 and 6). The cell may be contacted in vitro, wherein the method may comprise further culturing of said cell, with or without reintroduction into an animal. The agent may be a peptide, protein, DNA, RNA, antisense DNA, antisense RNA or small molecule.

In a further embodiment, there is provided a method of modulating differentiation of a cell, e.g., a hematopoietic cell, comprising inhibiting the function of one or more of the miRNAs of SEQ ID NOS: 1-34 (Tables 1 and 6). Inhibiting the function may comprise contacting the cell with one or more modified or unmodified antisense constructs directed to one or more of the miRNAs of SEQ ID NOS: 1-34. The cell may be located in an animal subject, such as a human, or the cell may be contacted in vitro, followed by culturing said cell in vitro, with or without reintroduction into an animal.

In still a further embodiment, there is provided a method of modulating differentiation of a cell, e.g., a hematopoietic cell, comprising providing to said cell an agonist of one or more of the miRNAs of SEQ ID NOS: 1-34 (Tables 1 and 6). The agonist may be one or more of the miRNAs of SEQ ID NOS: 1-34. The agonist may also be an expression cassette encoding one or more of the miRNAs of SEQ ID NOS: 1-34. The agonist may be a peptide, protein, nucleic acid, or small molecule that stimulates the expression of one or more of the miRNAs of SEQ ID NOS: 1-34. The cell may be located in an animal subject, such as a human, or the cell may be contacted in vitro, and may be followed by culturing said cell in vitro, with or without reintroduction into the animal.

Provided herein are method for modulating the differentiation of a cell, e.g., a stem-progenitor cell (SPC). A method may comprise contacting a stem-progenitor cell with one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of SEQ ID NOs: 1-34 or the complement thereof. Modulating the differentiation of a stem-progenitor cell may be inhibiting the differentiation of a stem-progenitor cell, in which case, the stem-progenitor cell is contacted with one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of SEQ ID NOs: 1-34. Modulating the differentiation of a stem-progenitor cell may be stimulating the differentiation of a stem-progenitor cell, in which case, the stem-progenitor cell is contacted with one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of the complements of SEQ ID NOs: 1-34. In one embodiment, the stem-progenitor cell is a hematopoietic stem-progenitor cell and the SEQ ID NOs are selected from the group consisting of the sequences of mir-128a, mir-181a, mir-146, mir-155, mir-24a, mir-17, mir-16, mir-103, mir-107, mir-223, mir-221 and mir-222 or the complement thereof The hematopoietic stem-progenitor cell may be a CD34+ cell.

In one embodiment, the differentiation of a hematopoietic stem-progenitor cell beyond the stage of multipotent progenitor cell (MPP) and/or before the stage of common lymphoid progenitor (CLP) or common myeloid progenitor (CMP) is inhibited, and the SEQ ID NOs are selected from the group consisting of mir-128a, mir-181a, mir-146, mir-155, mir-24a, and mir-17. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell beyond the stage of MPP andor before the stage of CLP is inhibited, and the SEQ ID NO is that of mir-146. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell beyond the stage of MPP and/or before the stage of CMP is inhibited, and the SEQ ID NOs are selected from the group consisting of mir-155, mir-24a or mir-17. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell beyond the stage of CMP and/or before the stage of B/Mac bi-potential is inhibited, and the SEQ ID NOs are those of mir-103 or mir-107. In one embodiment, the differentiation of the hematopoietic stem-progenitor cell beyond the stage of CMP and/or before the stage of megakaryocyte-erythrocyte progenitor (MEP) is inhibited, and the SEQ ID NO is that of mir-16. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell beyond the stage of granulocyte-macrophage progenitor cell (GMP) and/or before the stage of granulocytes is inhibited, and the SEQ ID NO is that of mir-223. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell beyond the stage of MEP and/or before the stage of erythrocyte is inhibited, and the SEQ ID NO is that of mir-221 and/or mir-222.

In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of CLP and CMP is stimulated, and the SEQ ID NOs are selected from the group consisting of mir-128a, mir-181a, mir-146, mir-155, mir-24a, and mir-17. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of CLP is stimulated, and the SEQ ID NO is that of mir-146. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of CMP is stimulated, and the SEQ ID NOs are selected from the group consisting of mir-155, mir-24a or mir-17. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of B/Mac bi-potential and GMP is stimulated, and the SEQ ID NOs are those of mir-103 or mir-107. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of CMP and/or before the stage of MEP is stimulated, and the SEQ ID NO is that of mir-16. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of granulocyte is stimulated, and the SEQ ID NO is that of mir-223. In one embodiment, the differentiation of a hematopoietic stem-progenitor cell towards the stage of erythrocyte is stimulated, and the SEQ ID NO is that of mir-221 and/or mir-222.

In one embodiment, a stem-progenitor cell is a human embryonic stem cell (ESC), a neural stem cell or a mesenchymal stem cell, and the SEQ ID NOs are selected from the group consisting of the sequences of let-7b, mir-17, mir-92-1, mir-92-2-p, mir-130a, mir-193, mir-197, mir-212 and mir-222 or the complement thereof.

Also provided herein are methods for stimulating the differentiation of a human embryonic stem cell into an embryonic type (primitive) hematopoietic stem cell. A method may comprise contacting a human embryonic stem cell with a nucleic acid comprising a nucleotide sequence that is at least about 90% identical to that of mir-155. Also provided herein are methods for preventing the differentiation of a human embryonic stem cell into an embryonic type (primitive) hematopoietic stem cell. A method may comprise contacting a human embryonic stem cell with a nucleic acid that is at least about 90% identical to that of the complement of mir-155.

In any of the methods described herein, a stem-progenitor cell may be in vitro, in vivo, ex vivo, isolated from a subject, isolated from the peripheral blood or from the bone marrow. When a cell is in vivo, a method for modulating the differentiation of a stem-progenitor cell that is in a subject may comprise administering to a subject or to a stem-progenitor cell that is in a subject in need thereof one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of SEQ ID NOs: 1-34 or the complement thereof. The subject may have a disease that is associated with excessive cell differentiation of a stem-progenitor cell and the method may comprise administering to the subject or to the stem-progenitor cell one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of SEQ ID NOs: 1-34. SEQ ID NOs may be selected from the group consisting of those of mir-128a, mir-181a, mir-146, mir-155, mir-24a, mir-17, mir-16, mir-103, mir-107, mir-223, mir-221 and mir-222 or the complement thereof. The subject may have a disease that-is associated with an excessive number of insufficiently differentiated cells and the method may comprise administering to the stem-progenitor cell one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of the complement of SEQ ID NOs: 1-34. The disease may be cancer, such as a solid tumor cancer or a blood cancer; the stem-progenitor cell may be a cancer stem cell and the SEQ ID NOs may be selected from the group consisting of the complements of the sequences of mir-128a, mir-181a, mir-146, mir-155, mir-24a, mir-17, mir-16, mir-103, mir-107, mir-223, mir-221 and mir-222 or the complement thereof. A subject in need of treatment may also have low levels of differentiated hematopoietic cells and the method may comprise administering to the stem-progenitor cell one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of the complement of SEQ ID NOs: 1-34. The subject may be having or having received chemotherapy or radiation therapy or other therapy destroying one or more types of differentiated cells or the subject may have a disease selected from the group consisting of thrombocytopenia, an immunodeficiency disease, an anemia, leukopenia, granulocytosis or neutropenia.

Also provided herein are methods for increasing the number of red blood cells in a subject, comprising administering to a subject in need thereof, an effective amount a nucleic acid comprising the complement of the nucleotide sequence of mir-16. Other methods provided herein include aA method for treating or preventing leukopenia in a subject, comprising administering to a subject in need thereof, an effective amount of a nucleic acid comprising the complement of mi-146. A subject in need of more differentiated cells may also be a subject infected with human immunodeficiency virus.

Further provided are methods for repopulating a hematopoietic cell population in a subject. A method may comprise obtaining a hematopoietic stem-progenitor cell from a subject, contacting ex vivo the stem-progenitor cell with one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of the complements of SEQ ID NOs: 1-33 to thereby obtain differentiated hematopoietic cells; and administering all or a portion of the differentiated hematopoietic cells to the subject. A hematopoietic stem-progenitor cells may be contacted with a nucleic acid comprising the complement of the nucleotide sequence of mir-16.

Also provided are methods for expanding a population of stem-progenitor cells. A method may comprise contacting the stem-progenitor cell with one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of SEQ ID NOs: 1-34.

Other embodiments include methods for modulating the expression of a gene that is a target of a miRNA set forth herein, e.g., a gene selected from the group consisting of CXCR4, FOS, FOXP1, GATA3, MYB, RUNX-1, RUNX-3, Spi-8, MED, PU.1, CBPβ, CREBBP, HoxA5, HoxB7, Jun, Meis-1, WWP2, ETS, Evi-1, MYB, AGTR1, AGTR2, GATA2, c-kit, MYB, ETS or PPRyin a cell. A method may comprise administering to the cell one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of the SEQ ID NOs: 1-33 or the complement thereof that interacts with the gene, as set forth in Table 1.

Isolated cells and populations of cells are also described herein. In one embodiment, an isolated stem-progenitor cell comprises a heterologous (or recombinant) nucleic acid that is at least about 90% identical to one or more of the SEQ ID NOs: 1-34 or the complement thereof. The stem-progenitor cell may be a stem cell. The isolated stem-progenitor cell may be a hematopoietic cell.

Also provided are compositions and kits, e.g., therapeutic or diagnostic compositions and kits. A composition may comprise one or more nucleic acids, wherein each nucleic acid comprises a nucleotide sequence that is at least about 90% identical to one or more of the SEQ ID NOs: 1-34 or the complement thereof and wherein the nucleic acid is linked to a promoter.

Also provided are methods for determining whether a cell is a stem-progenitor cell. A method may comprise determining the level of one or more miRNAs having one of SEQ ID NOs: 1-34, wherein a level of one or more of these miRNAs that is statistically significantly similar to that of Table 1 or Table 6 indicates that the cell is a stem-progenitor cell. A method for detecting a stem-progenitor cell in a population of cells, may comprise determining the level of one or more miRNAs having one of SEQ ID NOs: 1-34 in a cell in the population of cells, wherein a level of one or more of these miRNAs that is statistically significantly similar to that of Table 1 or 6 indicates the presence of a stem-progenitor cell in the population of cells. A method for determining the proportion of stem-progenitor cells in a population of cells, may comprise determining in a small portion of the population of cells the level of one or more miRNAs having one of SEQ ID NOs: 1-34, and comparing the proportion of cells having one or more of these miRNAs to the total number of cells of the small portion of the population, to thereby derive the proportion of stem-progenitor cells in the population of cells. A method for determining the type of stem-progenitor cell of a hematopoietic stem-progenitor cell may comprise determining the presence of one or more miRNAs that are associated with a particular stage of differentiation, wherein the presence of mir-128a and/or mir-181a indicates that the stem-progenitor cell is a LT-HSC, ST-HSC or an MPP; the presence of mir-146 indicates that the stem-progenitor cell is an MPP that will differentiate into a CLP; the presence of mir-155, mir-24a or mir-17 indicates that the stem-progenitor cell is an MPP that will differentiate into a CMP; the presence of mir-16 indicates that the stem-progenitor cell is a CMP that will differentiate into a MEP; the presence of mir-103 or mir-107 indicates that the stem-progenitor cell with differentiate into a B/Mac or GMP; the presence of mir-223 indicates that the stem-progenitor cell is a GMP that will differentiate into a granulocyte; the presence of mir-221 or mir-222 indicates that the stem-progenitor cell is an MEP that will differentiate into an erythrocyte. A method may further comprise determining the presence of mRNA that is specific for a particular stage of differentiation. For example, the presence of mRNA of one or more of CXCR4, FOS, FOXP1, GATA3, MYB, RUNX-1, RUNX-3, Spi-8, MED or PU.1 indicates that the stem-progenitor cell is a lymphoid stem-progenitor cell; wherein the presence of mRNA of one or more of CBPβ, CREBBP, CXCR4, HoxA5, HoxB7, Jun, Meis-1, RUNX-1, RUNX-3, WWP2, ETS, Evi-1, MYB or PU.1 indicates that the stem-progenitor cell is a myeloid stem-progenitor cell; and wherein the presence of mRNA of one or more of AGTR1, AGTR2, CREBB, FOS, GATA2, GATA3, Jun, c-kit, MYB, RUNX-1, ETS or PPRy indicates that the stem-progenitor cell is an erythroid stem-progenitor cell. Also provided are methods for determining the stemness of a cell. A method may comprise determining the level of one or more miRNAs having a nucleotide sequence of one of let-7b, mir-17, mir-92-1, mir-92-2-p, mir-130a, mir-193, mir-197, mir-212, and mir-222, wherein a level of one or more of these miRNAs that is statistically significantly similar to that of Table 6 indicates that the cell is a stem or stem-progenitor cell.

In still yet a further embodiment, there is provided a method of screening a candidate substance for an effect on cell, e.g., hematopoietic cell, differentiation or proliferation comprising (a) providing a cell that expresses one or more of the miRNAs of SEQ ID NOS: 1-34; (b) contacting said cell with said candidate substance; and (c) assessing the effect of said candidate substance on the expression or stability of one or more of the miRNAs of SEQ ID NOS: 1-34, wherein a candidate substance that modulates the expression or stability of one or more of the miRNAs of SEQ ID NOS: 1-34 is a modulator of cell, e.g., hematopoietic cell, differentiation or proliferation. Assessing may comprise measuring the cellular level or turnover of one or more of the miRNAs of SEQ ID NOS: 1-34.

In another embodiment, there is provided a method of screening a candidate substance for an effect on miRNA-mediated reduction in mRNA or protein translation, comprising (a) providing a cell with a vector encoding a reporter gene fused to a 3′ untranslated region (UTR) sequence, wherein the 3′UTR sequence comprises a nucleotide sequence identical or complimentary to that of an miRNA; (b) contacting the cell with said candidate substance; and (c) assessing the effect of the candidate substance on the expression of the reporter gene. The candidate substance may be one ore more of the miRNAs of SEQ ID NOS: 1-34, or a peptide, protein, nucleic acid, or small molecule. The 3′ UTR may comprise a nucleotide sequence identical or complimentary to that of any miRNA. The 3′ UTR may also comprise a nucleotide sequence from the 3′ UTR of any mRNA. The reporter gene may comprise any known reporter, including luciferase, fluorescent proteins, beta galactosidase, or others.

A method for identifying a gene whose expression modulates the differentiation of a stem-progenitor cell may comprise identifying a gene having a sequence from SEQ ID NO: 1-34 in the 3′ or 5′ UTR, wherein the presence of such as sequence indicates that the gene modulates the differentiation of a stem-progenitor cell. A method for identifying the function of a miRNA may comprise comparing an expression profile of mRNA of a specific cell with that of miRNA of the same cell; comparing the sequences of mRNA and miRNA that are expressed in the cell, wherein the identification of a miRNA having the same as a sequence present in the gene encoding the mRNA indicates that the miRNA is likely to regulate the expression of the gene. A method of screening a candidate substance for an effect on cell differentiation or proliferation, e.g., hematopoietic cell differentiation or proliferation may comprise providing a cell, e.g., a hematopoietic cell, that expresses one or more nucleic acids of SEQ ID NOS: 1-34; contacting said cell with a candidate substance; and assessing the effect of the candidate substance on the expression or stability of one or more nucleic acids of SEQ ID NOS: 1-34. A method for determining whether a miRNA inhibits the expression of a gene may comprise contacting a cell comprising a reporter construct linked to the 3′ or 5′ UTR of the gene with the miRNA, and determining the level of expression of the reporter construct, wherein a lower level of reporter construct in the presence of the miRNA relative to its absence indicates that the miRNA inhibits the expression of the gene.

These and other embodiments of the invention will be better appreciated and understood when considered in conjunction with the following description, exemplification and accompanying drawings. It should be understood, however, that the following description, while indicating various embodiments of the invention and numerous specific details thereof, is given by way of illustration and not of limitation. Many substitutions, modifications, additions and/or rearrangements may be made within the scope of the invention without departing from the spirit thereof, and the invention includes all such substitutions, modifications, additions and/or rearrangements.

The contents of all cited references (including literature references, issued patents, published patent applications, and GenBank accession numbers as cited throughout this application) are hereby expressly incorporated by reference. In case of conflict, the definitions herein dominate.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1. A model for HE-miRNA-mediated control of human hematopoiesis. Determination and electronic annotation of the predicted target HSPC-expressed mRNAs for the HE-miRNAs yielded predictions of the differentiation stages where HE-miRNAs might block hematopoietic differentiation. mir-221, mir-222, and mir-223 are predicted to regulate hematopoiesis by the study and supported by other reports; the other miRNAs are new predictions of the present invention. The hierarchy of hematopoietic differentiation is that proposed by Kondo et al. (17). LT-HSC, long-term-repopulating HSC; ST-SHC, short-term-repopulating HSC; MPP, multipotent progenitor cell; CLP, common lymphoid progenitor; CMP, common myeloid progenitor; GMP, granulocyte-macrophage progenitor; MEP, megakaryocyte-erythrocyte progenitor.

FIG. 2. Translation of 16 of 18 tested hematopoietic differentiation-associated mRNAs is controlled by HE-miRNAs. Chimeric mRNAs, consisting of a luc reporter followed by the 3′ UTR from the mRNAs shown, were expressed in K562 cells from a CMV-driven plasmid construct. All values are the percent of luc expression as compared with the control plasmid construct containing luc only. Results are combined from four separate replicate experiments.

FIG. 3. Deletion of specific predicted miRNA-binding sites restored translation of hematopoietic differentiation-associated mRNAs. Individual miRNA-binding sites were deleted from the luc-CXCR4 and luc-KLF2 chimeric mRNA constructs and then transfected into K562 cells. Labels show the mRNA name followed by the miRNA-binding site deleted from that 3′ UTR. All values are the percent of luc expression as compared with the plasmid construct containing luc only. Results are combined from four separate replicate experiments.

FIG. 4. mir-155 inhibited generation of myeloid and erythroid colonies by normal primary human CD34+ cells. Normal PBSC CD34+ cells were transduced with FUGW (empty) or mir-155 lentivector. (A and B) Myeloid (A) and erythroid (B) colonies per 1,000 cells plated. (C) Representative colonies generated by control and mir-155-transduced cells. Results are representative of three separate experiments.

FIG. 5. Production of Luc-3′ UTR reporter constructs and assay for miRNA mediated reduction in mRNA. (A) The luciferase (luc) reporter construct consists of a strong CMV promoter that drives luc expression. 3′ UTR sequences, produced by PCR, were cloned into the 3′ MCS after the luc coding sequence to produce chimeric genes, where luc is under the control of the 3′ UTR from the mRNA predicted to be controlled by a miRNA. (B) If no miRNA binds to the 3′ UTR, luciferase protein is expressed normally. (C) If a miRNA(s), represented as small bars, bind to the 3′ UTR sequence and also inhibit translation, translation will be inhibited resulting in decreased amounts of luciferase protein production.

FIG. 6. Base plasmids used for construction of Luciferase(luc)-3′ UTR Reporter Plasmids. (A) PSP-luc+NF fusion vector. (B) pcDNA-3.1.

FIG. 7. PBSC and BM miRNA expression data. Listed are the probe names for the microRNA chips and the intensity of signal for both PBSC and BM CD34+ cell samples after normalization and merging in GeneSpring.

FIG. 8. miRNAs expressed by PBSC and BM CD34+ cells. Listed are the miRNAs whose expression is shared between both PBSC and BM CD34+ cells, expressed only by PBSC, and expressed only by BM.

FIG. 9. MiR-16 expression changed dramatically during hemin-induced erythroid differentiation of K562 cells, but not during chemically-induced HL60 cell differentiation. (A) MiR levels during hemin-induced erythroid differentiation of K562 cells. (B) HL60 cells were induced to differentiate toward monocytes (1×10−8M 1,25 vitamin D), macrophages (50 ng/ml TPA), eosinophils (5×10−7M butyric acid), or granulocytes (1×10−7M all-trans retinoic acid). Results are a composite of 2 separate experiments containing both biologic and technical duplicates of each sample. (C) Erythroid proteins expressed in control or hemin-induced K562 cells, with our without mir-16 transduction, as measured by SILAC proteomics.

FIG. 10. Enforced miR-16 expression suppressed erythroid differentiation of primary human CD34+ HSPCs. Two days post-transduction of normal CD34+ cells with miR-16-containing or control (FUGW) lentivirus, GFP+ cells were isolated by FACS and assayed by (A) CFC assay or (B) suspension culture. Results in A are means (+/− standard error) of three experiments, and in B are representative plots from three experiments.

FIG. 11 provides the nucleotide sequences of the miRNAs described herein and depicts that some of the miRNAs are encoded by more than one gene.

FIG. 12. miRNA to mRNA compiled interaction chart. This table is a matrix representation of the data outlined in Table 3. Each mRNA transcript is shown in the column direction with each miRNA in the row direction. The mRNA name has been placed under each miRNA that has been predicted to control its translation.

FIG. 13. Cell line miRNA expression data Listed are the probe names for the microRNA chips and the intensity of signal for HAL-01, HL60, K562, KG-1, MV-4-1. REH, TF-1, and TF-1a cell line samples after normalization and merging in GeneSpring.

DETAILED DESCRIPTION

In certain embodiments, the present invention relates to the role of miRNAs in normal or pathological human cell differentiation, e.g., hematopoiesis. The present inventors have determined the miRNA expression profile of human hematopoietic stem-progenitor cells (HSPCs). The inventors then bioinformaticly combined (i) these miRNA expression data, (ii) mRNA expression data obtained for human CD34+ cells from a previous study by the inventors (8), and (iii) the predicted mRNA targets of all known miRNAs (9-11). Combining these five data sets into one database enabled the in silico examination of the interactions between HSPC-expressed miRNAs (HE-miRNAs) and mRNAs. Based on pairing HE-miRNAs with their putative HSPC-expressed mRNA targets, along with annotation implicating certain of these targets as associated with hematopoietic differentiation, the inventors have preicted which HE-miRNAs control hematopoietic differentiation.

The inventors found that 33 miRNAs (Table 1) are expressed in CD34+ HSPCs obtained from both bone marrow (BM) and mobilized blood peripheral blood stem cell (PBSC) harvests, and demonstrated that translation of several mRNAs associated with hematopoietic differentiation is controlled by these HE-miRNAs. Each of these HE-miRNAs targets multiple hematopoietic differentiation-associated mRNAs, suggesting that a relatively small subset of HE-miRNAs negatively regulates hematopoiesis. Taken together, these observations lea to a proposed model in which many of the protein-coding genes that specify hematopoietic differentiation are expressed at an early time point by undifferentiated HSPCs; yet, these factors appear to be held in check by HE-miRNA-mediated repression of protein translation.

TABLE 1 Levels of the HE-miRNAs expressed in CD34+ cells from PBSC and BM miRNA* PBSC RFU BM, RFU hsa-let-7b (SEQ ID NO: 1) 163,441 202,826 hsa-mir-10a (SEQ ID NO: 2) 123,147 104,124 hsa-mir-16a (SEQ ID NO: 3) 123,486 86,828 hsa-mir-17 (SEQ ID NO: 4) 169,601 839,361 hsa-mir-20 (SEQ ID NO: 5) 168,040 657,934 hsa-mir-23a (SEQ ID NO: 6) 445,017 896,002 hsa-mir-23b (SEQ ID NO: 7) 450,110 947,757 hsa-mir-24-1 (SEQ ID NO: 8) 96,912 105,926 hsa-mir-25 (SEQ ID NO: 9) 211,423 3,574,408 hsa-mir-26a (SEQ ID NO: 10) 364,607 867,620 hsa-mir-26b (SEQ ID NO: 11) 368,293 2,851,706 hsa-mir-30b (SEQ ID NO: 12) 136,572 91,862 hsa-mir-30d (SEQ ID NO: 13) 225,309 241,004 hsa-mir-92-1 (SEQ ID NO: 14) 4,115,379 5,793,765 hsa-mir-92-2-p (SEQ ID NO: 15) 3,477,367 4,760,875 hsa-mir-93-1 (SEQ ID NO: 16) 127,149 483,003 hsa-mir-103-2 (SEQ ID NO: 17) 103,209 686,012 hsa-mir-103-1 (SEQ ID NO: 18) 158,154 885,352 hsa-mir-106a (SEQ ID NO: 19) 160,635 729,776 hsa-mir-107 (SEQ ID NO: 20) 136,376 832,992 hsa-mir-128a (SEQ ID NO: 21) 319,848 183,657 hsa-mir-130a (SEQ ID NO: 22) 186,958 420,271 hsa-mir-146 (SEQ ID NO: 23) 626,547 444,647 hsa-mir-155 (SEQ ID NO: 24) 355,623 639,819 hsa-mir-181a (SEQ ID NO: 25) 110,744 598,830 hsa-mir-191 (SEQ ID NO: 26) 247,692 3,563,677 hsa-mir-193 (SEQ ID NO: 27) 104,803 481,103 hsa-mir-197 (SEQ ID NO: 28) 182,695 231,027 hsa-mir-213 (SEQ ID NO: 29) 272,646 1,088,714 hsa-mir-221 (SEQ ID NO: 30) 354,047 549,559 hsa-mir-222 (SEQ ID NO: 31) 354,343 200,347 hsa-mir-222-p (SEQ ID NO: 32) 186,393 138,190 hsa-mir-223 (SEQ ID NO: 33) 2,038,358 504,773 RFU, relative florescence units. *All miRNAs listed are the mature form, except those suffixed with “-p” which are the precursor forms (RFU values shown in italics).

The inventors also identified a set of 9 miRNAs that are specifically expressed in any early stem-progenitor cell, e.g., human embryonic stem cells, neurological stem cells and mesenchymal stem cells (see Table 6).

Other examples are further described in the Examplary section.

Nucleic acids are provided related to miRNAs, precursors thereto, and targets thereof. Such nucleic acids may be useful for diagnostic, therapeutic and prognostic purposes, and also for modifying target gene expression and stem cell differentiation. Also provided are methods and compositions that may be useful, among other things, for diagnostic, therapeutic and prognostic purposes. Other aspects of the invention will become apparent to the skilled artisan by the following description of the invention.

Definitions

Before the present compounds, products and compositions and methods are disclosed and described, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting. It must be noted that, as used in the specification and the appended claims, the singular forms “a,” “an” and “the” include plural referents unless the context clearly dictates otherwise.

“Animal” as used herein may mean fish, amphibians, reptiles, birds, and mammals, such as mice, rats, rabbits, goats, cats, dogs, cows, apes and humans.

“Biological sample” as used herein may mean a sample of biological tissue or fluid that comprises nucleic acids. Such samples include, but are not limited to, tissue or fluid isolated from animals. Biological samples may also include sections of tissues such as biopsy and autopsy samples, frozen sections taken for histologic purposes, blood, plasma, serum, sputum, stool, tears, mucus, hair, and skin. Biological samples also include explants and primary and/or transformed cell cultures derived from animal or patient tissues. A biological sample may be provided by removing a sample of cells from an animal, but can also be accomplished by using previously isolated cells (e.g., isolated by another person, at another time, and/or for another purpose), or by performing the methods described herein in vivo. Archival tissues, such as those having treatment or outcome history, may also be used.

“Cell” used herein may be a naturally occurring cell or a transformed cell that may contain a vector and may support replication of the vector. Cells may be cultured cells, explants, cells in vivo, and the like. Cells may be prokaryotic cells such as E. coli, or eukaryotic cells such as yeast, insect, amphibian, or mammalian cells, such as CHO and HeLa.

In certain embodiments, a host cell is a hematopoietic cell, for examle, a hematopoietic stem-progenitor cell, a long-term repopulating hematopoietic stem cell, a short-term repopulating hematopoietic stem cell, a multipotent progenitor cell, a common lymphoid progenitor cell, a pro-T cell, a T cell, an NK progenitor cell, an NK cell, a pro-B cell, a B cell, a common myeloid progenitor cell, a B-cell/macrophage bi-potential cell, a granulocyte-macrophage progenitor cell, a megakaryocyte-ertythrocyte progenitor cell, a macrophage, a granulocyte, a megakaryocyte progenitor cell, a megakaryocyte, or an erythrocyte. It is contemplated that the miRNAs described here may play a role in the differentiation pathways of other cells. The cell may also be a bacterial, fungal, plant, insect or other type of animal cell.

“Identical” or “identity” as used herein in the context of two or more nucleic acids or polypeptide sequences, may mean that the sequences have a specified percentage of residues that are the same over a specified region. The percentage may be calculated by optimally aligning the two sequences, comparing the two sequences over the specified region, determining the number of positions at which the identical residue occurs in both sequences to yield the number of matched positions, dividing the number of matched positions by the total number of positions in the specified region, and multiplying the result by 100 to yield the percentage of sequence identity. In cases where the two sequences are of different lengths or the alignment produces one or more staggered ends and the specified region of comparison includes only a single sequence, the residues of single sequence are included in the denominator but not the numerator of the calculation. When comparing DNA and RNA, thymine (T) and uracil (U) may be considered equivalent. Identity may be performed manually or by using a computer sequence algorithm such as BLAST or BLAST 2.0.

“Nucleic acid” or “oligonucleotide” or “polynucleotide” used herein may mean at least two nucleotides covalently linked together. The depiction of a single strand also defines the sequence of the complementary strand. Thus, a nucleic acid also encompasses the complementary strand of a depicted single strand, unless the nucleic acid is a single stranded nucleic acid. Many variants of a nucleic acid may be used for the same purpose as a given nucleic acid. A single strand provides a probe that may hybridize to a target sequence under stringent hybridization conditions. Thus, a nucleic acid may also be a probe that hybridizes under stringent hybridization conditions.

Nucleic acids may be single stranded or double stranded, or may contain portions of both double stranded and single stranded sequence. The nucleic acid may be DNA, both genomic and cDNA, RNA, or a hybrid, where the nucleic acid may contain combinations of deoxyribo- and ribo-nucleotides, and combinations of bases including uracil, adenine, thymine, cytosine, guanine, inosine, xanthine hypoxanthine, isocytosine and isoguanine. Nucleic acids may be obtained by chemical synthesis methods or by recombinant methods.

A nucleic acid will generally contain phosphodiester bonds, although nucleic acid analogs may be included that may have at least one different linkage, e.g., phosphoramidate, phosphorothioate, phosphorodithioate, or O-methylphosphoroamidite linkages and peptide nucleic acid backbones and linkages. Other analog nucleic acids include those with positive backbones; non-ionic backbones, and non-ribose backbones, including those described in U.S. Pat. Nos. 5,235,033 and 5,034,506, which are incorporated by reference. Nucleic acids containing one or more non-naturally occurring or modified nucleotides are also included within one definition of nucleic acids. The modified nucleotide analog may be located for example at the 5′-end and/or the 3′-end of the nucleic acid molecule. Representative examples of nucleotide analogs may be selected from sugar- or backbone-modified ribonucleotides. It should be noted, however, that also nucleobase-modified ribonucleotides, i.e. ribonucleotides, containing a non-naturally occurring nucleobase instead of a naturally occurring nucleobase such as uridines or cytidines modified at the 5-position, e.g. 5-(2-amino)propyl uridine, 5-bromo uridine; adenosines and guanosines modified at the 8-position, e.g. 8-bromo guanosine; deaza nucleotides, e.g. 7-deaza-adenosine; O- and N-alkylated nucleotides, e.g. N6-methyl adenosine are suitable. The 2′-OH-group may be replaced by a group selected from H, OR, R, halo, SH, SR, NH₂, NHR, NR₂ or CN, wherein R is C₁-C₆ alkyl, alkenyl or alkynyl and halo is F, Cl, Br or I. Modified nucleotides also include nucleotides conjugated with cholesterol through, e.g., a hydroxyprolinol linkage as described in Krutzfeldt et al., Nature (Oct. 30, 2005), Soutschek et al., Nature 432:173-178 (2004), and U.S. Patent Publication No. 20050107325, which are incorporated herein by reference. Modified nucleotides and nucleic acids may also include locked nucleic acids (LNA), as described in U.S. Patent No. 20020115080, which is incorporated herein by reference. Additional modified nucleotides and nucleic acids are described in U.S. Patent Publication No. 20050182005, which is incorporated herein by reference. Modifications of the ribose-phosphate backbone may be done for a variety of reasons, e.g., to increase the stability and half-life of such molecules in physiological environments, to enhance diffusion across cell membranes, or as probes on a biochip. Mixtures of naturally occurring nucleic acids and analogs may be made; alternatively, mixtures of different nucleic acid analogs, and mixtures of naturally occurring nucleic acids and analogs may be made.

“Operably linked” used herein may mean that expression of a gene is under the control of a promoter with which it is spatially connected. A promoter may be positioned 5′ (upstream) or 3′ (downstream) of a gene under its control. The distance between the promoter and a gene may be approximately the same as the distance between that promoter and the gene it controls in the gene from which the promoter is derived. As is known in the art, variation in this distance may be accommodated without loss of promoter function.

“Probe” as used herein may mean an oligonucleotide capable of binding to a target nucleic acid of complementary sequence through one or more types of chemical bonds, usually through complementary base pairing, usually through hydrogen bond formation. Probes may bind target sequences lacking complete complementarity with the probe sequence depending upon the stringency of the hybridization conditions. There may be any number of base pair mismatches which will interfere with hybridization between the target sequence and the single stranded nucleic acids described herein. However, if the number of mutations is so great that no hybridization can occur under even the least stringent of hybridization conditions, the sequence is not a complementary target sequence. A probe may be single stranded or partially single and partially double stranded. The strandedness of the probe is dictated by the structure, composition, and properties of the target sequence. Probes may be directly labeled or indirectly labeled such as with biotin to which a streptavidin complex may later bind.

“Promoter” as used herein may mean a synthetic or naturally-derived molecule which is capable of conferring, activating or enhancing expression of a nucleic acid in a cell. A promoter may comprise one or more specific transcriptional regulatory sequences to further enhance expression and/or to alter the spatial expression and/or temporal expression of same. A promoter may also comprise distal enhancer or repressor elements, which can be located as much as several thousand base pairs from the start site of transcription. A promoter may be derived from sources including viral, bacterial, fungal, plants, insects, and animals. A promoter may regulate the expression of a gene component constitutively, or differentially with respect to cell, the tissue or organ in which expression occurs or, with respect to the developmental stage at which expression occurs, or in response to external stimuli such as physiological stresses, pathogens, metal ions, or inducing agents. Representative examples of promoters include the bacteriophage T7 promoter, bacteriophage T3 promoter, SP6 promoter, lac operator-promoter, tac promoter, SV40 late promoter, SV40 early promoter, RSV-LTR promoter, CMV IE promoter, SV40 early promoter or SV40 late promoter and the CMV IE promoter.

“Selectable marker” used herein may mean any gene which confers a phenotype on a host cell in which it is expressed to facilitate the identification and/or selection of cells which are transfected or transformed with a genetic construct. Representative examples of selectable markers include the ampicillin-resistance gene (Amp^(r)), tetracycline-resistance gene (Tc^(r)), bacterial kanamycin-resistance gene (Kan^(r)), zeocin resistance gene, the AURI-C gene which confers resistance to the antibiotic aureobasidin A, phosphinothricin-resistance gene, neomycin phosphotransferase gene (nptII), hygromycin-resistance gene, beta-glucuronidase (GUS) gene, chloramphenicol acetyltransferase (CAT) gene, green fluorescent protein (GFP)-encoding gene and luciferase gene.

“Stringent hybridization conditions” used herein may mean conditions under which a first nucleic acid sequence (e.g., probe) will hybridize to a second nucleic acid sequence (e.g., target), such as in a complex mixture of nucleic acids. Stringent conditions are sequence-dependent and will be different in different circumstances. Stringent conditions may be selected to be about 5-10° C. lower than the thermal melting point (T_(m)) for the specific sequence at a defined ionic strength pH. The T_(m) may be the temperature (under defined ionic strength, pH, and nucleic concentration) at which 50% of the probes complementary to the target hybridize to the target sequence at equilibrium (as the target sequences are present in excess, at T_(m), 50% of the probes are occupied at equilibrium). Stringent conditions may be those in which the salt concentration is less than about 1.0 M sodium ion, such as about 0.01-1.0 M sodium ion concentration (or other salts) at pH 7.0 to 8.3 and the temperature is at least about 30.degree. C. for short probes (e.g., about 10-50 nucleotides) and at least about 60° C. for long probes (e.g., greater than about 50 nucleotides). Stringent conditions may also be achieved with the addition of destabilizing agents such as formamide. For selective or specific hybridization, a positive signal may be at least 2 to 10 times background hybridization. Exemplary stringent hybridization conditions include the following: 50% formamide, 5.times.SSC, and 1% SDS, incubating at 42° C., or, 5×SSC, 1% SDS, incubating at 65° C., with wash in 0.2×SSC, and 0.1% SDS at 65° C.

“Substantially complementary” used herein may mean that a first sequence is at least about 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 97%, 98% or 99% identical to the complement of a second sequence over a region of 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100 or more nucleotides, or that the two sequences hybridize under stringent hybridization conditions.

“Substantially identical” used herein may mean that a first and second sequence are at least about 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 97%, 98% or 99% identical over a region of 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100 or more nucleotides or amino acids, or with respect to nucleic acids, if the first sequence is substantially complementary to the complement of the second sequence.

“Variant” used herein to refer to a nucleic acid may mean (i) a portion of a referenced nucleotide sequence; (ii) the complement of a referenced nucleotide sequence or portion thereof; (iii) a nucleic acid that is substantially identical to a referenced nucleic acid or the complement thereof; or (iv) a nucleic acid that hybridizes under stringent conditions to the referenced nucleic acid, complement thereof, or a sequences substantially identical thereto.

“Vector” is used to refer to a carrier nucleic acid molecule into which a nucleic acid sequence can be inserted for introduction into a cell where it can be replicated. In accordance with the present invention, it may be desirable to express the miRNAs of the present invention in a vector. The term “exogenous,” means that the vector or entity referred to is foreign to the cell into which it is being introduced or that the sequence is homologous to a sequence in the cell but in a position within the host cell nucleic acid in which the sequence is ordinarily not found. Vectors include plasmids, cosmids, viruses (bacteriophage, animal viruses, and plant viruses), and artificial chromosomes (e.g., BACs, YACs). One of skill in the art would be well equipped to construct a vector through standard recombinant techniques (see, for example, Maniatis et al., 1988 and Ausubel et al., 1994, both incorporated herein by reference).

“Expression vector” refers to any type of genetic construct comprising a nucleic acid coding for an RNA capable of being transcribed. Expression vectors can contain a variety of “control sequences,” which refer to nucleic acid sequences necessary for the transcription and possibly translation of an operably linked coding sequence in a particular host cell. In addition to control sequences that govern transcription and translation, vectors and expression vectors may contain nucleic acid sequences that serve other functions as well and are described infra.

A “promoter” may be one naturally associated with a nucleic acid sequence, as may be obtained by isolating the 5′ non-coding sequences located upstream of the coding segment and/or exon. Such a promoter can be referred to as “endogenous.” Similarly, an enhancer may be one naturally associated with a nucleic acid sequence, located either downstream or upstream of that sequence. Alternatively, certain advantages will be gained by positioning the coding nucleic acid segment under the control of a recombinant or heterologous promoter, which refers to a promoter that is not normally associated with a nucleic acid sequence in its natural environment. A recombinant or heterologous enhancer refers also to an enhancer not normally associated with a nucleic acid sequence in its natural environment. Such promoters or enhancers may include promoters or enhancers of other genes, and promoters or enhancers isolated from any other virus, or prokaryotic or eukaryotic cell, and promoters or enhancers not “naturally occurring,” i.e., containing different elements of different transcriptional regulatory regions, and/or mutations that alter expression. For example, promoters that are most commonly used in recombinant DNA construction include the beta-lactamase (penicillinase), lactose and tryptophan (trp) promoter systems. In addition to producing nucleic acid sequences of promoters and enhancers synthetically, sequences may be produced using recombinant cloning and/or nucleic acid amplification technology, including PCR, in connection with the compositions disclosed herein (see U.S. Pat. Nos. 4,683,202 and 5,928,906, each incorporated herein by reference). Furthermore, it is contemplated the control sequences that direct transcription and/or expression of sequences within non-nuclear organelles such as mitochondria, chloroplasts, and the like, can be employed as well.

In certain embodiments, it may be useful to employ a promoter and/or enhancer that effectively directs the expression of the DNA segment in the organelle, cell type, tissue, organ, or organism chosen for expression. Those of skill in the art of molecular biology generally know the use of promoters, enhancers, and cell type combinations for protein expression, (see, for example Sambrook et al. (2001), incorporated herein by reference). The promoters employed may be constitutive, tissue-specific, inducible, and/or useful under the appropriate conditions to direct high level expression of the introduced DNA segment. The promoter may be heterologous or endogenous.

Additionally any promoter/enhancer combination (as per, for example, the Eukaryotic Promoter Data Base EPDB, www.epd.isb-sib.ch) could also be used to drive expression. Use of a T3, T7 or SP6 cytoplasmic expression system is another possible embodiment. Eukaryotic cells can support cytoplasmic transcription from certain bacterial promoters if the appropriate bacterial polymerase is provided, either as part of the delivery complex or as an additional genetic expression construct.

A specific initiation signal also may be required for efficient translation of coding sequences. These signals include the ATG initiation codon or adjacent sequences. Exogenous translational control signals, including the ATG initiation codon, may need to be provided. One of ordinary skill in the art would readily be capable of determining this and providing the necessary signals. It is well known that the initiation codon must be “in-frame” with the reading frame of the desired coding sequence to ensure translation of the entire insert. The exogenous translational control signals and initiation codons can be either natural or synthetic. The efficiency of expression may be enhanced by the inclusion of appropriate transcription enhancer elements.

In certain embodiments of the invention, the use of internal ribosome entry sites (IRES) elements are used to create multigene, or polycistronic, messages. IRES elements are able to bypass the ribosome scanning model of 5′ methylated Cap dependent translation and begin translation at internal sites (Pelletier and Sonenberg, 1988). IRES elements from two members of the picornavirus family (polio and encephalomyocarditis) have been described (Pelletier and Sonenberg, 1988), as well an IRES from a mammalian message (Macejak and Sarnow, 1991). IRES elements can be linked to heterologous open reading frames. Multiple open reading frames can be transcribed together, each separated by an IRES, creating polycistronic messages. By virtue of the IRES element, each open reading frame is accessible to ribosomes for efficient translation. Multiple genes can be efficiently expressed using a single promoter/enhancer to transcribe a single message (see U.S. Pat. Nos. 5,925,565 and 5,935,819, each herein incorporated by reference).

Surface markers of hematopoietic cells are as follows: HSCs (CD34+/CD38−/CD90+/Lin−), CMPs (CD34+/CD38+/CD123+/CD45RA−), and MEPs (CD34+/CD38+/CD123−/CD45RA−). HSPCs may be CD34+; HSC-enriched cells (CD34+/[CD38/Lin]lo); HPC-enriched cells (CD34+/[CD38/Lin]hi); Erythroid progenitor-enriched cells (CD34+/[CD71/CD235A]+); and (e) Erythroid precursor/mature cells (CD34−/[CD71/CD235A]+).

MicroRNA

While not being bound by theory, a gene coding for an miRNA may be transcribed leading to production of an miRNA precursor known as the pri-miRNA. The pri-miRNA may be part of a polycistronic RNA comprising multiple pri-miRNAs. The pri-miRNA may form a hairpin with a stem and loop. The stem may comprise mismatched bases.

The hairpin structure of the pri-miRNA may be recognized by Drosha, which is an RNase III endonuclease. Drosha may recognize terminal loops in the pri-miRNA and cleave approximately two helical turns into the stem to produce a 60-70 nt precursor known as the pre-miRNA. Drosha may cleave the pri-miRNA with a staggered cut typical of RNase III endonucleases yielding a pre-miRNA stem loop with a 5′ phosphate and about a 2 nucleotide 3′ overhang. Approximately one helical turn of the stem (about 10 nucleotides) extending beyond the Drosha cleavage site may be essential for efficient processing. The pre-miRNA may then be actively transported from the nucleus to the cytoplasm by Ran-GTP and the export receptor Ex-portin-5.

The pre-miRNA may be recognized by Dicer, which is also an RNase III endonuclease. Dicer may recognize the double-stranded stem of the pre-miRNA. Dicer may also recognize the 5′ phosphate and 3′ overhang at the base of the stem loop. Dicer may cleave off the terminal loop two helical turns away from the base of the stem loop leaving an additional 5′ phosphate and about a 2 nucleotide 3′ overhang. The resulting siRNA-like duplex, which may comprise mismatches, comprises the mature miRNA and a similar-sized fragment known as the miRNA*. The miRNA and miRNA* may be derived from opposing arms of the pri-miRNA and pre-miRNA. miRNA* sequences may be found in libraries of cloned miRNAs but typically at lower frequency than the miRNAs.

Although initially present as a double-stranded species with miRNA*, the miRNA may eventually become incorporated as a single-stranded RNA into a ribonucleoprotein complex known as the RNA-induced silencing complex (RISC). Various proteins can form the RISC, which can lead to variability in specifity for miRNA/miRNA* duplexes, binding site of the target gene, activity of miRNA (repress or activate), and which strand of the miRNA/miRNA* duplex is loaded in to the RISC.

When the miRNA strand of the miRNA:miRNA* duplex is loaded into the RISC, the miRNA* may be removed and degraded. The strand of the miRNA:miRNA* duplex that is loaded into the RISC may be the strand whose 5′ end is less tightly paired. In cases where both ends of the miRNA:miRNA* have roughly equivalent 5′ pairing, both miRNA and miRNA* may have gene silencing activity.

The RISC may identify target nucleic acids based on high levels of complementarity between the miRNA and the mRNA, especially by nucleotides 2-8 of the miRNA. A case has been reported in animals where the interaction between the miRNA and its target was along the entire length of the miRNA. This was shown for mir-196 and Hox B8 and it was further shown that mir-196 mediates the cleavage of the Hox B8 mRNA (Yekta et al., 2004, Science 304-594). Such interactions are also known only in plants (Bartel & Bartel, 2003, Plant Physiol 132-709).

A number of studies have examined the base-pairing requirement between miRNA and its mRNA target for achieving efficient inhibition of translation (reviewed by Bartel, 2004, Cell, 116-281). In mammalian cells, the first 8 nucleotides of the miRNA may be important (Doench & Sharp, 2004, GenesDev, 2004-504). However, other parts of the miRNA may also participate in mRNA binding. Moreover, sufficient base pairing at the 3′ can compensate for insufficient pairing at the 5′ (Brennecke et al., 2005, PLoS 3-e85). Computational studies analyzing miRNA binding on whole genomes have suggested a specific role for bases 2-7 at the 5′ of the miRNA in target binding but a role for the first nucleotide, usually “A”, was also recognized (Lewis et al., 2005, Cell, 120-15). Similarly, nucleotides 1-7 or 2-8 were used to identify and validate targets by Krek et al. (2005, Nat Genet, 37-495).

The target sites in the mRNA may be in the 5′ UTR, the 3′ UTR or within the coding region. Multiple miRNAs may regulate the same mRNA target by recognizing the same or multiple sites. The presence of multiple miRNA binding sites in most genetically identified targets may indicate that the cooperative action of multiple RISCs provides the most efficient translational inhibition. Similarly, a single miRNA may regulate multiple mRNA targets by recognizing the same or similar sites on the different targets.

Without being bound by theory, miRNAs may direct the RISC to downregulate gene expression by several mechanisms: mRNA cleavage, translational repression, or chromatin remodeling. The miRNA may specify cleavage of the mRNA if the miRNA has a certain degree of complementarity to the mRNA. When an miRNA guides cleavage, the cut may be between the nucleotides pairing to residues 10 and 11 of the miRNA. Alternatively, the miRNA may repress translation if the miRNA does not have the requisite degree of complementarity to the miRNA. Translational repression may be more prevalent in animals since animals may have a lower degree of complementarity between the miRNA and binding site.

It should be noted that there may be variability in the 5′ and 3′ ends of any pair of miRNA and miRNA*. This variability may be due to variability in the enzymatic processing of Drosha and Dicer with respect to the site of cleavage. Variability at the 5′ and 3′ ends of miRNA and miRNA* may also be due to mismatches in the stem structures of the pri-miRNA and pre-miRNA. The mismatches of the stem strands may lead to a population of different hairpin structures. Variability in the stem structures may also lead to variability in the products of cleavage by Drosha and Dicer.

Methods for Modulating Differentiation of Stem-Progenitor Cells

Provided herein are methods for modulating the differentiation of an incompletely differentiated cell, i.e., a cell that is capable of further differentiation, e.g., a stem-progenitor cell (SPC). A “stem-progenitor cell” is any cell that is capable of further differentiation and/or is capable of proliferation, i.e., undergoing cell division (i.e. renew itself). An SPC may be a eukaryotic cell, e.g., a mammalian cell, a vertebrate cell, a human cell or a non-human cell, e.g., a non-human animal cell. A SPC may be an embryonic SPC, e.g., a human embryonic stem cell, an adult stem cell, as well as a cancer stem cell. It may be also be an adult SPC, and may be of any cell lineage, e.g., a cell lineage specific stem cell, e.g., a neural, mesenchymal, hematopoietic, muscle, stromal cells (e.g., bone marrow stromal cells), skin, liver, brain, and blood vessel specific stem cells.

The potency of a cell is sometimes used to specify the differentiation potential (the potential to differentiate into different cell types) of a stem or stem-progenitor cell. Totipotent stem cells are sometimes referred to as cells that are produced from the fusion of an egg and sperm cell. Cells produced by the first few divisions of the fertilized egg may also be totipotent. These cells can differentiate into embryonic and extraembryonic cell types. Pluripotent stem are sometimes referred to as cells that are the descendants of totipotent cells and can differentiate into cells derived from any of the three germ layers. Multipotent stem cells are cells that can produce only cells of a closely related family of cells (e.g. hematopoietic stem cells differentiate into red blood cells, white blood cells, platelets, etc.). Unipotent cells can produce only one cell type, but have the property of self-renewal which distinguishes them from non-stem cells (e.g. muscle stem cells).

Hematopoietic stem cells may give rise to all the types of blood cells: red blood cells, B lymphocytes, T lymphocytes, natural killer cells, neutrophils, basophils, eosinophils, monocytes, macrophages, and platelets. Bone marrow stromal cells (mesenchymal stem cells) may give rise to a variety of cell types: bone cells (osteocytes), cartilage cells (chondrocytes), fat cells (adipocytes), and other kinds of connective tissue cells such as those in tendons. Neural stem cells in the brain may give rise to its three major cell types: nerve cells (neurons) and two categories of non-neuronal cells—astrocytes and oligodendrocytes. Epithelial stem cells in the lining of the digestive tract occur in deep crypts and give rise to several cell types: absorptive cells, goblet cells, Paneth cells, and enteroendocrine cells. Skin stem cells occur in the basal layer of the epidermis and at the base of hair follicles. The epidermal stem cells amy give rise to keratinocytes, which migrate to the surface of the skin and form a protective layer. The follicular stem cells can give rise to both the hair follicle and to the epidermis (see, e.g., stemcells.nih.gov.).

Certain adult stem cell types are pluripotent. This ability to differentiate into multiple cell types is called plasticity or transdifferentiation. The following list offers examples of adult stem cell plasticity. Hematopoietic stem cells may differentiate into: three major types of brain cells (neurons, oligodendrocytes, and astrocytes); skeletal muscle cells; cardiac muscle cells; and liver cells. Bone marrow stromal cells may differentiate into: cardiac muscle cells and skeletal muscle cells. Brain stem cells may differentiate into: blood cells and skeletal muscle cells (see, e.g., stemcells.nih.gov.).

In one embodiment, a stem-progenitor cell is a hematopoietic stem-progenitor cell (HSPC). An HSPC is any cell that is not fully differentiated, i.e., that is capable of further differentiation and/or is capable of further proliferation (or cell division). An HSPC may be any cell that is set forth in FIG. 1, provided that it is not a fully differentiated cell.

A method may comprise contacting a hematopoietic stem-progenitor cell with one or more agents that modulate the level or activity of exactly or about 1, 2, 3, 5, 10, 15, 20, 25, 30, 32, or 33 miRNAs having one of SEQ ID NOs: 1-33 (see Table 1). In one embodiment, an agent that modulates the level or activity of a miRNA is a nucleic acid, e.g., a natural, synthetic or recombinant nucleic acid, comprising a nucleotide sequence that is at least about 50%, 60%, 70%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or 100% to that of the miRNA, pre-miRNA or pri-miRNA or the complement thereof. When referring to “comprising a sequence” herein, it is understood that in certain embodiments, “consisting essentially of” or “consisting of” are also included. For example, in certain embodiments, a nucleic acid comprises, consists essentially of or consists of a nucleotide sequence that is at least about 50%, 60%, 70%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or 100% to that of the miRNA, pre-miRNA or pri-miRNA or the complement thereof. In certain embodiments, a nucleic acid comprises a nucleotide sequence that differs (by substitution, addition or deletion) from that of a miRNA, pre-miRNA or pri-miRNA in about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more nucleotides. In embodiments in which it is desired to inhibit the differentiation of a stem-progenitor cell, a nucleic acid comprising a nucleotide sequence that is identical to or homologous to that of all or a portion of the miRNA, pre-miRNA or pri-miRNA may be used. In embodiments in which it is desired to stimulate the differentiation of a stem-progenitor cell, a nucleic acid comprising a nucleotide sequence that is identical to or homologous to that of the complement of all or a portion of the miRNA, pre-miRNA or pri-miRNA may be used. Generally, when referring to targeting, modulating, inhibiting or stimulating a “miRNA,” it is understood that this may include affecting related or derivative molecules of the miRNA, such as pre- and pri-miRNAs. A difference in nucleotide sequence is permitted provided that i) if the nucleic acid is an antagonist of the miRNA, the nucleic acid binds (or hybridizes) sufficiently strongly and/or specifically to the miRNA, pre-miRNA or pri-miRNA to thereby inhibit or reduce its activity and ii) if the nucleic acid is an agonist of the miRNA, the nucleic acid mimics or has the biological activity or a significant portion thereof, of the wild-type miRNA.

Nucleic acids for modulating the level or activity of miRNAs may, in addition to a sequence that is identical or homologous.to that of the miRNA or complement thereof, also comprise additional, unrelated nucleotides, provided that they do not interfere with the mimicking or inhibition, respectively, of the miRNA. They may comprise, e.g., about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more nucleotides that are located either 5′ and/or 3′ (or internal) to the sequence for modulating the level or activity of the miRNA.

An agonist of a miRNA (understood herein to also include agonists of the related molecules, e.g., pre- or pri-miRNA) is any agent, e.g., a nucleic acid comprising a nucleotide sequence that is identical or homologous to that of the miRNA, that mimics the action of the miRNA. An antagonist of a miRNA (understood herein to also include agonists of the related molecules, e.g., pre- or pri-miRNA) is any agent, e.g., a nucleic acid comprising a nucleotide sequence that is identical or homologous to that of the complement of the miRNA, that inhibits the action of the miRNA.

In certain embodiments, a nucleic acid comprises at least about 2, 3, 5, 10, 15, 20, 25, 30, or more nucleotide sequences that are identical or homologous to that of a miRNA or the complement thereof. The nucleotide sequences may be mimicking or inhibiting the level or activity of one miRNA or alternatively of at least about 2, 3, 5, 10, 15, 20, 25, 30, 32, 33, or more different miRNAs, e.g., those having SEQ ID NOs: 1-33.

Exemplary steps of hematopoiesis that may be modulated by specific miRNAs are set forth in FIG. 1. Generally, agonists of specific miRNAs will inhibit (or block) the differentiation of a hematopoietic stem-progenitor cell past a certain stage of differentiation and/or maintain the cell at a certain stage of differentiation, while antagonists of specific miRNAs will stimulate the differentiation of the cell towards or past (or beyond) a specific stage of differentiation. Thus, the methods described herein allow one to block a cell early in differentiation or later in differentiation, depending on which miRNA agonist is used. The methods described herein also allow one to stimulate the differentiation of an early progenitor or stem cell or a cell at a later stage of diffentiation.

In certain embodiments, a hematopoietic stem-progenitor cell is a pluripotent stem-progenitor cell, a totipotent stem-progenitor cell, a long-term repopulating hematopoietic stem-progenitor cell (HSPC), a short term repopulating HSPC, or a multipotent stem-progenitor cell and its differentiation is modulated with one or more nucleic acids comprising one or more SEQ ID NOs selected from the group consisting of those of mir-128a, mir-181a, mir-146, mir-155, mir-24a, and mir-17 or the complement thereof. In certain embodiments, the differentiation of a hematopoietic stem-progenitor cell into a common lymphoid stem-progenitor is modulated with one or more nucleic acids comprising one or more SEQ ID NOs of mir-146 or the complement thereof. In certain embodiments, the differentiation of a hematopoietic stem-progenitor cell into a common myeloid stem-progenitor is modulated with one or more nucleic acids comprising one or more SEQ ID NOs selected from the group consisting of those of mir-155, mir-24a or mir-17 or the complement thereof. In certain embodiments, the differentiation of a hematopoietic stem-progenitor cell that is a common myeloid stem-progenitor cell into macrophages and granulocytes is modulated with one or more nucleic acids comprising one or more SEQ ID NOs of those of mir-103 or mir-107 or the complement thereof In certain embodiments, the differentiation of a hematopoietic stem-progenitor cell that is a common myeloid stem-progenitor cell into megakaryocyte-erythrocyte stem-progenitor is modulated with one or more nucleic acids comprising one or more SEQ ID NOs of mir-16 or the complement thereof. In certain embodiments, the differentiation of a hematopoietic stem-progenitor cell that is a granulocyte-macrophage stem-progenitor into a granulocyte is modulated with one or more nucleic acids comprising one or more of the SEQ ID NO of mir-223 or the complement thereof. In certain embodiments, the differentiation of a hematopoietic stem-progenitor cell that is a megakaryocyte-erythrocyte stem-progenitor cell into erythrocytes is modulated with one or more nucleic acids comprising one or more of the SEQ ID NOs of mir-221 and/or mir-222 or the complement thereof.

Also provided are methods for stimulating the differentiation of human embryonic stem cells into embryonic type (primitive) hematopoietic stem cells. A method may comprise contacting the human embryonic stem cells with an agonist of mir-155, e.g., a nucleic acid comprising a nucleotide sequence that is at least about 90% identical to that of mir-155. Another method prevents the differentiation of human embryonic stem cells into embryonic type (primitive) hematopoietic stem cells, e.g., by contacting the human embryonic stem cells with an antagonist of mir-155, e.g., a nucleic acid that is at least about 90% identical to that of the complement of mir-155.

In certain embodiments, the differentiation of a HSPC is modulated with the use of more than one agent. For example, the differentiation of a HSPC may be modulated with the use of one or more agents that target the level or activity of at least about 2, 3, 4, 5, 10, 15, 20, 25, 30, 31, 32 or 33 different miRNAs having one of SEQ ID NOs: 1-33. In one embodiment, the differentiation of a HSPC is modulated by contacting or introducing into the HSPC an agonist or antagonist of any one of the miRNAs having one of SEQ ID NOs: 1-33. In one embodiment, the differentiation of a HSPC is stimulated by contacting or introducing into the HSPC an agonist or antagonist of any one of the miRNAs set forth in FIG. 1, i.e., mir-128a, mir-181a, mir-146, mir-155, mir-24a, mir-17, mir-16, mir-103, mir-107, mir-223, mir-221 and mir-222. In situations in which one may wish to differentiate an HSPC into a cell at a certain stage of differentiation (or lineage), one may include a combination of agonists of certain miRNAs and antagonists of other miRNAs. For example, to obtain a population of cells enriched in CMPs, one may contact or administer into a HSPC an agonist of mir-103 and/or mir-107, an agonist of mir-16, an agonist of mir-146 and an antagonist of mir-128a, mir-181a, mir-155, mir-24a and/or mir-17. Other combinations of agonists and antagonists will be evident from FIG. 1.

Other methods provided herein modulate the differentiation of non-hematopoietic stem-progenitor cells, e.g., neuronal, mesenchymal and embryonic stem cell (see Table 6). Modulating the differentiation of such cells may be made with agonists and/or antagonists of miRNAs of Table 6, as described in the context of hematopoietic stem cells.

In certain embodiments (which may relate to methods of differentiation or other methods described herein, miRNAs are not specific miRNAs. For example, in certain embodiments, a miRNA is not mi-146, 181, 221, 222 or 223.

Methods for Enriching or Expanding a Population of Stem-Progenitor Cells

Methods of modulating the differentiation of SPCs may be used to enrich populations of cells in one or more specific types of cells or cells of particular lineages or for expanding populations of cells. For example, a method may be used to expand a population of undifferentiated cells, e.g., stem or progenitor or stem-progenitor cells, such as by blocking differentiation, e.g., by using agonists of miRNAs described herein. In one embodiment, the initial population of cell is a population of cells comprising undifferentiated cells and the method comprises contacting the initial population of cells with one or more agonist of a miRNA set forth in Table 1. In one embodiment, the initial population of cells comprises hematopoietic cells, e.g., from the peripheral blood or bone marrow, and the initial population of cells is contacted with one or more agonists having a sequence from SEQ ID NO: 1-33, such as to enrich the population of cells in hematopoietic stem-progenitor cells that are undifferentiated or at an early stage of differentiation. In other embodiments, a population of cells may be enriched in specific types of hematopoietic cells by using agonists, antagonists of miRNAs of Table 1, e.g., having one or SEQ ID NO: 33 or a combination of agonists and antagonists. A method may be used for enriching a population of cells into differentiated cells, partially differentiated cells or undifferentiated cells.

Enriching or expanding a population of cells may be conducted in vitro, ex vivo or in vivo. When expanding a population of cells in vitro, the initial population of cells may be from a cell line, including embryonic or cancer stem cell lines, or from a subject. An initial population of cells may comprise multiple cell types, or alternatively, it may consist essentially of only one cell type. Where an initial population of cells comprises different types of cells, it may first be enriched in certain types of cells by using techniques known in the art, by immunoaffinity. Accordingly, an initial population of cells may be population of cells that is enriched in certain types of cells. In one example, an initial population of cells are cells obtained from the peripheral blood or bone marrow of a subject and the population of cells has been enriched in CD34+ cells.

In one embodiment, an initial population of cells is obtained from a subject; the initial population of cells is enriched or expanded into one or more particular cell types to obtain an enriched or expanded population of cells; and the enriched or expanded population of cells is administered to a subject, which may be the same subject from whom the initial population of cells was obtained or a different subject. The cells may also be additionally purified, enriched or expanded by other methods, e.g., based on the presence of certain surface markers or by FACS.

In one embodiment, a population of cells is enriched or expanded in vivo. A method may comprise administering to a subject in need thereof a therapeutically effective amount of one or more agonists or antagonists of one or more miRNAs set forth in Table 1, e.g., those having a sequence of SEQ ID NOs: 1-33, to thereby enrich or expand a population of cells in the subject. An agent may be administered locally of systemically. In one embodiment, for expanding or enriching hematopoietic cells in certain types of cells, an agent is administered into the bone marrow. For enriching or expanding a population of cells in the blood, an agent may be administered directly into the blood. An agent may comprise or be comprised in a delivery vehicle that allows targeting to particular cell types. Such targeting may be based on cell surface molecules of the target population of cells.

As it has been shown herein, mir-155 prevents further differentiation of a very early hematopoietic stem cell (HSC), e.g., when differentiated from an embryonic stem cell. In one embodiment, a method for expanding a population of HSC or produce HSC from embryonic stem cells, comprises contacting the cells with an agonist of mir-155. Also provided are methods for stimulating the differentiation of embryonic stem cells past HSCs, comprising contacting the cells with an antagonist of mir-155.

Based at least on the identification of 9 miRNAs that are expressed in several types of stem cells, also encompassed are methods for expanding a population of stem cells, e.g., embryonic stem cells, e.g., human embryonic stem cells. A method may comprise contacting a stem cell with one or more agonists of one or more miRNAs selected from the group consisting of let-7b, mir-17, mir-92-1, mir-92-2p, mir-130a, mir-193, mir-197, mir-212 and mir-222 (“stem cell miRNAs”; Table 6), to thereby prevent the differentiation of the stem cells. Also provided are methods for stimulating the differentiation of a population of stem cells. A method may comprise contacting a stem cell with one or more antagonists of one or more miRNAs selected from the group consisting of let-7b, mir-17, mir-92-1, mir-92-2p, mir-130a, mir-193, mir-197, mir-212 and mir-222, to thereby stimulate the differentiation of the stem cells.

Also provided herein are isolated, purified, expanded and/or enriched populations of cells that are obtained using one or more of the methods described herein for modulating the differentiation of cells. A population of cells may at least about 50%, 60%, 70%, 80%, 90%, 95%, 97%, 98%, 99% or 100% enriched in one or more type or lineage of cells. Populations of cells may also comprise cells comprising one or more heterologous nucleic acid encoding or identical to one or more miRNAs, such as those further described herein. Populations of cells may also be comprised in a pharmaceutical composition, e.g., for administration of the cells to a subject, e.g., in stem cell therapy. Populations of cells and compositions comprising such may also be present in a delivery vehicle, such as a liposome, a viral particle or a nanoparticle, e.g., as further described herein.

Expanded populations of early stem progenitor cells may be used for the production of cells oe one or more lineage, which may then be transplanted into a subject. Alternatively, expanded populations of cells, e.g., undifferentiated cells, are administered to a subject, e.g., for stem cell therapy.

Nucleic Acids Controlling Stem-Progenitor Cell Differentiation

Nucleic acids controlling stem progenitor cell, e.g., hematopoietic stem-progenitor, cell differentiation are provided herein. The nucleic acid may comprise the sequence of SEQ ID NOS: 1-34 or variants thereof. The variant may be a complement of the referenced nucleotide sequence. The variant may also be a nucleotide sequence that is substantially identical to the referenced nucleotide sequence or the complement thereof. The variant may also be a nucleotide sequence that hybridizes under stringent conditions to the referenced nucleotide sequence, complements thereof, or nucleotide sequences substantially identical thereto.

The nucleic acid may have a length of from 10 to 250 nucleotides. The nucleic acid may have a length of at least 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 125, 150, 175, 200 or 250 nucleotides. The nucleic acid may be synthesized or expressed in a cell (in vitro or in vivo) using a synthetic gene described herein. The nucleic acid may be synthesized as a single stranded molecule and hybridized to a substantially complementary nucleic acid to form a duplex. The nucleic acid may be introduced to a cell, tissue or organ in a single- or double-stranded form or capable of being expressed by a synthetic gene using methods well known to those skilled in the art, including as described in U.S. Pat. No. 6,506,559 which is incorporated by reference. In certain embodiments, it may be useful to incorporate the nucleic acids into a vector, as described supra.

Pri-miRNA

The nucleic acid may comprise a sequence of a pri-miRNA or a variant thereof. The pri-miRNA sequence may comprise from 45-250, 55-200, 70-150 or 80-100 nucleotides. The sequence of the pri-miRNA may comprise a pre-miRNA, miRNA and miRNA*, as set forth herein, and variants thereof. The sequence of the pri-miRNA may comprise the sequence of SEQ ID NOS:1-34, the complement of an miRNA binding site referred to on an mRNA in FIG. 13, or variants thereof.

The pri-miRNA may form a hairpin structure. The hairpin may comprise a first and second nucleic acid sequence that are substantially complementary. The first and second nucleic acid sequence may be from 37-50 nucleotides. The first and second nucleic acid sequence may be separated by a third sequence of from 8-12 nucleotides. The hairpin structure may have a free energy less than −25 Kcal/mole as calculated by the Vienna algorithm with default parameters, as described in Hofacker et al., Monatshefte f. Chemie 125: 167-188 (1994), the contents of which are incorporated herein. The hairpin may comprise a terminal loop of 4-20, 8-12 or 10 nucleotides. The pri-miRNA may comprise at least 19% adenosine nucleotides, at least 16% cytosine nucleotides, at least 23% thymine nucleotides and at least 19% guanine nucleotides.

Pre-miRNA

The nucleic acid may also comprise a sequence of a pre-miRNA or a variant thereof. The pre-miRNA sequence may comprise from 45-90, 60-80 or 60-70 nucleotides. The sequence of the pre-miRNA may comprise a miRNA and a miRNA* as set forth herein, The sequence of the pre-miRNA may also be that of a pri-miRNA excluding from 0-160 nucleotides from the 5′ and 3′ ends of the pri-miRNA. The sequence of the pre-miRNA may comprise the sequence of SEQ ID NOS: 1-34, the complement of an miRNA binding site on an mRNA referred to in FIG. 13, or variants thereof.

miRNA

The nucleic acid may also comprise a sequence of an miRNA (including miRNA*) or a variant thereof The miRNA sequence may comprise from 13-33, 18-24 or 21-23 nucleotides. The miRNA may also comprise a total of at least 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 or 40 nucleotides. The sequence of the miRNA may be the first 13-33 nucleotides of the pre-miRNA. The sequence of the miRNA may also be the last 13-33 nucleotides of the pre-miRNA. The sequence of the miRNA may comprise the sequence of SEQ ID NOS: 1-34, the complement of an miRNA binding site on an mRNA referred to in FIG. 13, or variants thereof.

Anti-miRNA

The nucleic acid may also comprise a sequence of an anti-miRNA that is capable of blocking the activity of a miRNA or miRNA*, such as by binding to the pri-miRNA, pre-miRNA, miRNA or miRNA* (e.g. antisense or RNA silencing), or by binding to the target binding site. The anti-miRNA may comprise a total of 5-100 or 10-60 nucleotides. The anti-miRNA may also comprise a total of at least 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 or 40 nucleotides. The sequence of the anti-miRNA may comprise (a) at least 5 nucleotides that are substantially complementary to the 5′ of a miRNA and at least 5-12 nucleotides that are substantially identical to the flanking regions of the target site from the 5′ end of the miRNA, for the purposes of binding to a miRNA and repressing its activity; or (b) at least 5-12 nucleotides that are substantially identical to the 3′ of a miRNA and at least 5 nucleotide that are substantially complementary to the flanking region of the target site from the 3′ end of the miRNA, for the purposes of inhibiting the ability of a miRNA to bind to its target. The sequence of the anti-miRNA may comprise the complement of SEQ ID NOS:1-34, the miRNA binding site on an mRNA referred to in FIG. 13, or variants thereof.

In some embodiments, morpholino-based oligonucleotides may be used to block the activity of an miRNA. Morpholinos comprise standard nucleic acid bases bound to morpholine rings, instead of deoxyribose rings, and linked through phosphorodiamidate groups, instead of phosphates (Summerton and Weller, 1997, Antisense & Nucleic Acid Drug Development, 7: 187-195). In other embodiments, “multi-blocking morpholinos,” which may inhibit the activity of a targeted miRNA by blocking several steps of its maturation, may be used.

Vectors

Vectors can include a multiple cloning site (MCS), which is a nucleic acid region that contains multiple restriction enzyme sites, any of which can be used in conjunction with standard recombinant technology to digest the vector (see, for example, Carbonelli et al., 1999, Levenson et al., 1998, and Cocea, 1997, incorporated herein by reference.) “Restriction enzyme digestion” refers to catalytic cleavage of a nucleic acid molecule with an enzyme that functions only at specific locations in a nucleic acid molecule. Many of these restriction enzymes are commercially available. Use of such enzymes is widely understood by those of skill in the art. Frequently, a vector is linearized or fragmented using a restriction enzyme that cuts within the MCS to enable exogenous sequences to be ligated to the vector. “Ligation” refers to the process of forming phosphodiester bonds between two nucleic acid fragments, which may or may not be contiguous with each other. Techniques involving restriction enzymes and ligation reactions are well known to those of skill in the art of recombinant technology.

The vectors or constructs of the present invention will generally comprise at least one termination signal. A “termination signal” or “terminator” is comprised of the DNA sequences involved in specific termination of an RNA transcript by an RNA polymerase. Thus, in certain embodiments a termination signal that ends the production of an RNA transcript is contemplated. A terminator may be necessary in vivo to achieve desirable message levels.

In eukaryotic systems, the terminator region may also comprise specific DNA sequences that permit site-specific cleavage of the new transcript so as to expose a polyadenylation site. This signals a specialized endogenous polymerase to add a stretch of about 200 A residues (polyA) to the 3′ end of the transcript. RNA molecules modified with this polyA tail appear to more stable and are translated more efficiently. Thus, in other embodiments involving eukaryotes, it is preferred that that terminator comprises a signal for the cleavage of the RNA, and it is more preferred that the terminator signal promotes polyadenylation of the message. The terminator and/or polyadenylation site elements can serve to enhance message levels and to minimize read through from the cassette into other sequences.

Terminators contemplated for use in the invention include any known terminator of transcription described herein or known to one of ordinary skill in the art, including but not limited to, for example, the termination sequences of genes, such as for example the bovine growth hormone terminator or viral termination sequences, such as for example the SV40 terminator. In certain embodiments, the termination signal may be a lack of transcribable or translatable sequence, such as due to a sequence truncation.

In expression, particularly eukaryotic expression, one will typically include a polyadenylation signal to effect proper polyadenylation of the transcript. The nature of the polyadenylation signal is not believed to be crucial to the successful practice of the invention, and any such sequence may be employed. Preferred embodiments include the SV40 polyadenylation signal or the bovine growth hormone polyadenylation signal, convenient and known to function well in various target cells. Polyadenylation may increase the stability of the transcript or may facilitate cytoplasmic transport.

In order to propagate a vector in a host cell, it may contain one or more origins of replication sites (often termed “ori”), which is a specific nucleic acid sequence at which replication is initiated. Alternatively an autonomously replicating sequence (ARS) can be employed if the host cell is yeast.

In certain embodiments of the invention, cells containing a nucleic acid construct of the present invention may be identified in vitro or in vivo by including a marker in the expression vector. Such markers would confer an identifiable change to the cell permitting easy identification of cells containing the expression vector. Generally, a selectable marker is one that confers a property that allows for selection. A positive selectable marker is one in which the presence of the marker allows for its selection, while a negative selectable marker is one in which its presence prevents its selection. An example of a positive selectable marker is a drug resistance marker.

Usually the inclusion of a drug selection marker aids in the cloning and identification of transformants, for example, genes that confer resistance to neomycin, puromycin, hygromycin, DHFR, GPT, zeocin and histidinol are useful selectable markers. In addition to markers conferring a phenotype that allows for the discrimination of transformants based on the implementation of conditions, other types of markers including screenable markers such as GFP, whose basis is colorimetric analysis, are also contemplated. Alternatively, screenable enzymes such as herpes simplex virus thymidine kinase (tk) or chloramphenicol acetyltransferase (CAT) may be utilized. One of skill in the art would also know how to employ immunologic markers, possibly in conjunction with FACS analysis. The marker used is not believed to be important, so long as it is capable of being expressed simultaneously with the nucleic acid encoding a gene product. Further examples of selectable and screenable markers are well known to one of skill in the art.

In certain embodiments, a plasmid vector is contemplated for use to transform a host cell. In general, plasmid vectors containing replicon and control sequences which are derived from species compatible with the host cell are used in connection with these hosts. The vector ordinarily carries a replication site, as well as marking sequences which are capable of providing phenotypic selection in transformed cells. In a non-limiting example, E. coli is often transformed using derivatives of pBR322, a plasmid derived from an E. coli species. pBR322 contains genes for ampicillin and tetracycline resistance and thus provides easy means for identifying transformed cells. The pBR plasmid, or other microbial plasmid or phage must also contain, or be modified to contain, for example, promoters which can be used by the microbial organism for expression of its own proteins.

In addition, phage vectors containing replicon and control sequences that are compatible with the host microorganism can be used as transforming vectors in connection with these hosts. For example, the phage lambda GEM-11 may be utilized in making a recombinant phage vector which can be used to transform host cells, such as, for example, E. coli LE392.

Further useful plasmid vectors include pIN vectors (Inouye et al., 1985); and pGEX vectors, for use in generating glutathione S-transferase (GST) soluble fusion proteins for later purification and separation or cleavage. Other suitable fusion proteins are those with beta-galactosidase, ubiquitin, and the like.

Bacterial host cells, for example, E. coli, comprising the expression vector, are grown in any of a number of suitable media, for example, LB. The expression of the recombinant protein in certain vectors may be induced, as would be understood by those of skill in the art, by contacting a host cell with an agent specific for certain promoters, e.g., by adding IPTG to the media or by switching incubation to a higher temperature. After culturing the bacteria for a further period, generally of between 2 and 24 h, the cells are collected by centrifugation and washed to remove residual media.

Viral Vectors

The ability of certain viruses to infect cells or enter cells via receptor-mediated endocytosis, and to integrate into host cell genome and express viral genes stably and efficiently have made them attractive candidates for the transfer of foreign nucleic acids into cells (e.g., mammalian cells). Non-limiting examples of virus vectors that may be used to deliver a nucleic acid of the present invention are described below.

Adenoviral Vectors. A particular method for delivery of nucleic acids involves the use of an adenovirus expression vector. Although adenovirus vectors are known to have a low capacity for integration into genomic DNA, this feature is counterbalanced by the high efficiency of gene transfer afforded by these vectors. “Adenovirus expression vector” is meant to include those constructs containing adenovirus sequences sufficient to (a) support packaging of the construct and (b) to ultimately express a tissue or cell-specific construct that has been cloned therein. Knowledge of the genetic organization or adenovirus, a 36 kb, linear, double-stranded DNA virus, allows substitution of large pieces of adenoviral DNA with foreign sequences up to 7 kb (Grunhaus and Horwitz, 1992).

AAV Vectors. The nucleic acid may be introduced into a cell using adenovirus-assisted transfection. Increased transfection efficiencies have been reported in cell systems using adenovirus coupled systems (Kelleher and Vos, 1994; Cotten et al., 1992; Curiel, 1994). Adeno-associated virus (AAV) is an attractive vector system as it has a high frequency of integration and it can infect nondividing cells, thus making it useful for delivery of genes into mammalian cells, for example, in tissue culture (Muzyczka, 1992) or in vivo. AAV has a broad host range for infectivity (Tratschin et al., 1984; Laughlin et al., 1986; Lebkowski et al., 1988; McLaughlin et al., 1988). Details concerning the generation and use of rAAV vectors are described in U.S. Pat. Nos. 5,139,941 and 4,797,368, each incorporated herein by reference.

Retroviral Vectors. Retroviruses have promise as delivery vectors due to their ability to integrate their genes into the host genome, transferring a large amount of foreign genetic material, infecting a broad spectrum of species and cell types and of being packaged in special cell-lines (Miller, 1992).

In order to construct a retroviral vector, a nucleic acid is inserted into the viral genome in the place of certain viral sequences to produce a virus that is replication-defective. In order to produce virions, a packaging cell line containing the gag, pol, and env genes but without the LTR and packaging components is constructed (Mann et al., 1983). When a recombinant plasmid containing a cDNA, together with the retroviral LTR and packaging sequences is introduced into a special cell line (e.g., by calcium phosphate precipitation for example), the packaging sequence allows the RNA transcript of the recombinant plasmid to be packaged into viral particles, which are then secreted into the culture media (Nicolas and Rubenstein, 1988; Temin, 1986; Mann et al., 1983). The media containing the recombinant retroviruses is then collected, optionally concentrated, and used for gene transfer. Retroviral vectors are able to infect a broad variety of cell types. However, integration and stable expression require the division of host cells (Paskind et al., 1975).

Lentiviruses are complex retroviruses, which, in addition to the common retroviral genes gag, pol, and env, contain other genes with regulatory or structural function. Lentiviral vectors are well known in the art (see, for example, Naldini et al., 1996; Zufferey et al., 1997; Blomer et al., 1997; U.S. Pat. Nos. 6,013,516 and 5,994,136). Some examples of lentivirus include the Human Immunodeficiency Viruses: HIV-1, HIV-2 and the Simian Immunodeficiency Virus: SIV. Lentiviral vectors have been generated by multiply attenuating the HIV virulence genes, for example, the genes env, vif, vpr, vpu and nef are deleted making the vector biologically safe.

Recombinant lentiviral vectors are capable of infecting non-dividing cells and can be used for both in vivo and ex vivo gene transfer and expression of nucleic acid sequences. For example, recombinant lentivirus capable of infecting a non-dividing cell wherein a suitable host cell is transfected with two or more vectors carrying the packaging functions, namely gag, pol and env, as well as rev and tat is described in U.S. Pat. No. 5,994,136, incorporated herein by reference. One may target the recombinant virus by linkage of the envelope protein with an antibody or a particular ligand for targeting to a receptor of a particular cell-type. By inserting a sequence (including a regulatory region) of interest into the viral vector, along with another gene which encodes the ligand for a receptor on a specific target cell, for example, the vector is now target-specific.

Other Viral Vectors. Other viral vectors may be employed as vaccine constructs in the present invention. Vectors derived from viruses such as vaccinia virus (Ridgeway, 1988; Baichwal and Sugden, 1986; Coupar et al., 1988), sindbis virus, cytomegalovirus and herpes simplex virus may be employed. They offer several attractive features for various mammalian cells (Friedmann, 1989; Ridgeway, 1988; Baichwal and Sugden, 1986; Coupar et al., 1988; Horwich et al., 1990).

Delivery Using Modified Viruses. A nucleic acid to be delivered may be housed within an infective virus that has been engineered to express a specific binding ligand. The virus particle will thus bind specifically to the cognate receptors of the target cell and deliver the contents to the cell. A novel approach designed to allow specific targeting of retrovirus vectors was developed based on the chemical modification of a retrovirus by the chemical addition of lactose residues to the viral envelope. This modification can permit the specific infection of hepatocytes via sialoglycoprotein receptors.

Another approach to targeting of recombinant retroviruses was designed in which biotinylated antibodies against a retroviral envelope protein and against a specific cell receptor were used. The antibodies were coupled via the biotin components by using streptavidin (Roux et al., 1989). Using antibodies against major histocompatibility complex class I and class II antigens, they demonstrated the infection of a variety of human cells that bore those surface antigens with an ecotropic virus in vitro (Roux et al., 1989).

Delivering Nucleic Acids to Cells

Suitable methods for nucleic acid delivery to cells for use with the current invention are believed to include virtually any method by which a nucleic acid (e.g., DNA), as known to one of ordinary skill in the art. Such methods include, but are not limited to, direct delivery of DNA such as by ex vivo transfection (Wilson et al., 1989, Nabel et al, 1989), by injection (U.S. Pat. Nos. 5,994,624, 5,981,274, 5,945,100, 5,780,448, 5,736,524, 5,702,932, 5,656,610, 5,589,466 and 5,580,859, each incorporated herein by reference), including microinjection (Harland and Weintraub, 1985; U.S. Pat. No. 5,789,215, incorporated herein by reference); by electroporation (U.S. Pat. No. 5,384,253, incorporated herein by reference; Tur-Kaspa et al., 1986; Potter et al., 1984); by calcium phosphate precipitation (Graham and Van Der Eb, 1973; Chen and Okayama, 1987; Rippe et al., 1990); by using DEAE-dextran followed by polyethylene glycol (Gopal, 1985); by direct sonic loading (Fechheimer et al, 1987); by liposome-mediated transfection (Nicolau and Sene, 1982; Fraley et al., 1979; Nicolau et al., 1987; Wong et al., 1980; Kaneda et al., 1989; Kato et al., 1991) and receptor-mediated transfection (Wu and Wu, 1987; Wu and Wu, 1988); by microprojectile bombardment (PCT Application Nos. WO 94/09699 and 95/06128; U.S. Pat. Nos. 5,610,042; 5,322,783 5,563,055, 5,550,318, 5,538,877 and 5,538,880, and each incorporated herein by reference); by agitation with silicon carbide fibers (Kaeppler et al., 1990; U.S. Pat. Nos. 5,302,523 and 5,464,765, each incorporated herein by reference); by desiccation/inhibition-mediated DNA uptake (Potrykus et al., 1985), and any combination of such methods.

Methods for tranfecting cells and tissues removed from an organism in an ex vivo setting are known to those of skill in the art. For example, cannine endothelial cells have been genetically altered by retrovial gene tranfer in vitro and transplanted into a canine (Wilson et al., 1989). In another example, yucatan minipig endothelial cells were tranfected by retrovirus in vitro and transplated into an artery using a double-ballonw catheter (Nabel et al., 1989). Thus, it is contemplated that cells or tissues may be removed and tranfected ex vivo using the nucleic acids of the present invention. In some embodiments, the transplanted cells or tissues may be placed into an organism. In some embodiments, a nucleic acid is expressed in the transplated cells or tissues.

Injection. In certain embodiments, a nucleic acid may be delivered to an organelle, a cell, a tissue or an organism via one or more injections (i.e., a needle injection), such as, for example, subcutaneously, intradermally, intramuscularly, intravenously, intraperitoneally, etc. Methods of injection of vaccines are well known to those of ordinary skill in the art (e.g., injection of a composition comprising a saline solution). Further embodiments of the present invention include the introduction of a nucleic acid by direct microinjection. Direct microinjection has been used to introduce nucleic acid constructs into Xenopus oocytes (Harland and Weintraub, 1985). The amount of nucleic acid used may vary upon the nature of the antigen as well as the organelle, cell, tissue or organism used

Electroporation. In certain embodiments of the present invention, a nucleic acid is introduced into an organelle, a cell, a tissue or an organism via electroporation. Electroporation involves the exposure of a suspension of cells and DNA to a high-voltage electric discharge. In some variants of this method, certain cell wall-degrading enzymes, such as pectin-degrading enzymes, are employed to render the target recipient cells more susceptible to transformation by electroporation than untreated cells (U.S. Pat. No. 5,384,253, incorporated herein by reference). Alternatively, recipient cells can be made more susceptible to transformation by mechanical wounding.

Transfection of eukaryotic cells using electroporation has been quite successful. Mouse pre-B lymphocytes have been transfected with human kappa-immunoglobulin genes (Potter et al., 1984), and rat hepatocytes have been transfected with the chloramphenicol acetyltransferase gene (Tur-Kaspa et al., 1986) in this manner.

To effect transformation by electroporation in cells such as, for example, plant cells, one may employ either friable tissues, such as a suspension culture of cells or embryogenic callus or alternatively one may transform immature embryos or other organized tissue directly. In this technique, one would partially degrade the cell walls of the chosen cells by exposing them to pectin-degrading enzymes (pectolyases) or mechanically wounding in a controlled manner. Examples of some species which have been transformed by electroporation of intact cells include maize (U.S. Pat. No. 5,384,253; Rhodes et al., 1995; D'Halluin et al., 1992), wheat (Zhou et al., 1993), tomato (Hou and Lin, 1996), soybean (Christou et al., 1987) and tobacco (Lee et al., 1989).

Calcium Phosphate. In other embodiments of the present invention, a nucleic acid is introduced to the cells using calcium phosphate precipitation. Human KB cells have been transfected with adenovirus 5 DNA (Graham and Van Der Eb, 1973) using this technique. Also in this manner, mouse L(A9), mouse C127, CHO, CV-1, BHK, NIH3T3 and HeLa cells were transfected with a neomycin marker gene (Chen and Okayama, 1987), and rat hepatocytes were transfected with a variety of marker genes (Rippe et al., 1990).

DEAE-Dextran. In another embodiment, a nucleic acid is delivered into a cell using DEAE-dextran followed by polyethylene glycol. In this manner, reporter plasmids were introduced into mouse myeloma and erythroleukemia cells (Gopal, 1985).

Sonication Loading. Additional embodiments of the present invention include the introduction of a nucleic acid by direct sonic loading. LTK.sup.-fibroblasts have been transfected with the thymidine kinase gene by sonication loading (Fechheimer et al., 1987).

Liposome-Mediated Transfection. In a further embodiment of the invention, a nucleic acid may be entrapped in a lipid complex such as, for example, a liposome. Liposomes are vesicular structures characterized by a phospholipid bilayer membrane and an inner aqueous medium. Multilamellar liposomes have multiple lipid layers separated by aqueous medium. They form spontaneously when phospholipids are suspended in an excess of aqueous solution. The lipid components undergo self-rearrangement before the formation of closed structures and entrap water and dissolved solutes between the lipid bilayers (Ghosh and Bachhawat, 1991). Also contemplated is an nucleic acid complexed with Lipofectamine (Gibco BRL) or Superfect (Qiagen).

Liposome-mediated nucleic acid delivery and expression of foreign DNA in vitro has been very successful (Nicolau and Sene, 1982; Fraley et al., 1979; Nicolau et al., 1987). The feasibility of liposome-mediated delivery and expression of foreign DNA in cultured chick embryo, HeLa and hepatoma cells has also been demonstrated (Wong et al., 1980).

In certain embodiments of the invention, a liposome may be complexed with a hemagglutinating virus (HVJ). This has been shown to facilitate fusion with the cell membrane and promote cell entry of liposome-encapsulated DNA (Kaneda et al., 1989). In other embodiments, a liposome may be complexed or employed in conjunction with nuclear non-histone chromosomal proteins (HMG-1) (Kato et al., 1991). In yet further embodiments, a liposome may be complexed or employed in conjunction with both HVJ and HMG-1. In other embodiments, a delivery vehicle may comprise a ligand and a liposome.

Receptor Mediated Transfection. Still further, a nucleic acid may be delivered to a target cell via receptor-mediated delivery vehicles. These take advantage of the selective uptake of macromolecules by receptor-mediated endocytosis that will be occurring in a target cell. In view of the cell type-specific distribution of various receptors, this delivery method adds another degree of specificity to the present invention.

Certain receptor-mediated gene targeting vehicles comprise a cell receptor-specific ligand and a nucleic acid-binding agent. Others comprise a cell receptor-specific ligand to which the nucleic acid to be delivered has been operatively attached. Several ligands have been used for receptor-mediated gene transfer (Wu and Wu, 1987; Wagner et al., 1990; Perales et al., 1994; Myers, EPO 0273085), which establishes the operability of the technique. Specific delivery in the context of another mammalian cell type has been described (Wu and Wu, 1993; incorporated herein by reference). In certain aspects of the present invention, a ligand will be chosen to correspond to a receptor specifically expressed on the target cell population.

In other embodiments, a nucleic acid delivery vehicle component of a cell-specific nucleic acid targeting vehicle may comprise a specific binding ligand in combination with a liposome. The nucleic acid(s) to be delivered are housed within the liposome and the specific binding ligand is functionally incorporated into the liposome membrane. The liposome will thus specifically bind to the receptor(s) of a target cell and deliver the contents to a cell. Such systems have been shown to be functional using systems in which, for example, epidermal growth factor (EGF) is used in the receptor-mediated delivery of a nucleic acid to cells that exhibit upregulation of the EGF receptor.

In still further embodiments, the nucleic acid delivery vehicle component of a targeted delivery vehicle may be a liposome itself, which will preferably comprise one or more lipids or glycoproteins that direct cell-specific binding. For example, lactosyl-ceramide, a galactose-terminal asialganglioside, have been incorporated into liposomes and observed an increase in the uptake of the insulin gene by hepatocytes (Nicolau et al., 1987). It is contemplated that the tissue-specific transforming constructs of the present invention can be specifically delivered into a target cell in a similar manner.

Synthetic Gene

A synthetic gene is also provided comprising a nucleic acid described herein operably linked to a transcriptional and/or translational regulatory sequence. The synthetic gene may be capable of modifying the expression of a target gene with a binding site for a nucleic acid described herein. Expression of the target gene may be modified in a cell, tissue or organ. The synthetic gene may be synthesized or derived from naturally-occurring genes by standard recombinant techniques. The synthetic gene may also comprise terminators at the 3′-end of the transcriptional unit of the synthetic gene sequence. The synthetic gene may also comprise a selectable marker.

Biochip

A biochip is also provided. In some embodiments, the biochip may be specific for the determination of the state of a hematopoietic cell. The biochip may comprise a solid substrate comprising an attached probe or plurality of probes described herein. The probes may be capable of hybridizing to a target sequence under stringent hybridization conditions. The probes may be attached at spatially defined address on the substrate. More than one probe per target sequence may be used, with either overlapping probes or probes to different sections of a particular target sequence. The probes may be capable of hybridizing to target sequences associated with a single disorder.

The probes may be attached to the biochip in a wide variety of ways, as will be appreciated by those in the art. The probes may either be synthesized first, with subsequent attachment to the biochip, or may be directly synthesized on the biochip.

The solid substrate may be a material that may be modified to contain discrete individual sites appropriate for the attachment or association of the probes and is amenable to at least one detection method. Representative examples of substrates include glass and modified or functionalized glass, plastics (including acrylics, polystyrene and copolymers of styrene and other materials, polypropylene, polyethylene, polybutylene, polyurethanes, TeflonJ, etc.), polysaccharides, nylon or nitrocellulose, resins, silica or silica-based materials including silicon and modified silicon, carbon, metals, inorganic glasses and plastics. The substrates may allow optical detection without appreciably fluorescing.

The substrate may be planar, although other configurations of substrates may be used as well. For example, probes may be placed on the inside surface of a tube, for flow-through sample analysis to minimize sample volume. Similarly, the substrate may be flexible, such as a flexible foam, including closed cell foams made of particular plastics.

The biochip and the probe may be derivatized with chemical functional groups for subsequent attachment of the two. For example, the biochip may be derivatized with a chemical functional group including, but not limited to, amino groups, carboxyl groups, oxo groups or thiol groups. Using these functional groups, the probes may be attached using functional groups on the probes either directly or indirectly using a linkers. The probes may be attached to the solid support by either the 5′ terminus, 3′ terminus, or via an internal nucleotide.

The probe may also be attached to the solid support non-covalently. For example, biotinylated oligonucleotides can be made, which may bind to surfaces covalently coated with streptavidin, resulting in attachment. Alternatively, probes may be synthesized on the surface using techniques such as photopolymerization and photolithography.

Expression Analysis/detecion of miRNAs

Also provided herein a methods of detecting and/or quantifying stem-progenitor cells. As further described in the Examples, the inventors have identified a “molecular signature” of all essentially undifferentiated stem cells and a “molecular signature” of hematopoietic stem-progenitor cells. As understood in the art, a “molecular signature” refers to expression levels of a certain number of biological molecules, in the instant case, of miRNAs. Thus, the finding of such a signature will be evidence of the presence of stem-progenitor cells. Accordingly, a method may comprise determining the level of one or more stem cell of HSPC miRNAs and comparing that level to that of the levels set forth in Table 1 for HSPCs and in Table 6 for essentially undifferentiated stem cells. Such methods may be used to detect or quantify the presence or number of undifferentiated stem cells or HSPCs. In one embodiment, a sample of cells is obtained from a subject and the level of miRNAs is determined. A sample may be a sample of blood cells or of bone marrow. A method may also comprise detecting one or more mRNA that is expressed specifically in hematopoietic stem-progenitor cells, e.g., those described in US application publication No. 22070036765.

A method of detection may comprise determining the level of 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 31, 32 or 33 miRNAs of Table 1 or 1, 2, 3, 4, 5, 6, 7, 8 or 9 miRNAs of Table 6.

A detection method described herein may also be used to determine the degree of enrichment of a population of cells that is being enriched in particular cell types.

Comparing a molecular fingerprint or signature where an insignificant, e.g., statistically insignificant difference between a miRNA expression profile of a population of cells and that of the molecular signature or portion thereof set forth in Table 1 or 6 or elsewhere herein indicates that the population of cells are significantly the same. A fingerprint may be the level of expression of all the miRNA of a Table set forth herein, e.g., Table 1 or Table 6, or it can be that of a portion of the miRNAs, e.g., at least about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33 or 44 miRNAs.

A method may comprise obtaining a sample from a subject, isolating a population or subpopulation of cells therefrom; detecting the level of miRNAs of a table, e.g., Table 1 or 6; and comparing that or those levels of expression with the molecular signature or portion thereof set forth in the table. In one embodiment, blood cells, e.g., PBMCs or bone marrow cells are obtained from a subject. In one embodiment, CD34+ cells are isolated from the population of cells and the level of expression of one or more miRNAs set forth in Table 1 is determined and compared to that in Table 1. In one embodiment, the level of expression of the 33 mirNAs set forth in Table 1 is determined in CD34+ cells and their level is compared with the molecular signature set forth in Table 1. A statistically significant difference in the level of one or more miRNAs may be indicative of an abormality of CD34+ cells or hematopoietic stem-progenitor cells in the subject. Abnormal may be an abnormal number of CD34+ cells or hematopoietic stem-progenitor cells, which may be indicative of a disease or condition.

Compositions and kits comprising one or more agents for detecting one or more miRNAs are also provided. An exemplary composition may comprise 1 or more agents, such as probes, that detect, e.g., specifically detect 1, 2, 3, 5, 10, 15, 20, 25, 30, 31, 32 or 33 miRNAs selected from the group consisting of SEQ ID NOs: 1-33 (Table 1) or one or more agents that detect 1, 2, 3, 4, 5, 6, 7, 8 or 9 stem cell miRNAs (Table 6).

Detection may be performed by contacting the sample with a probe or biochip described herein and detecting the amount of hybridization. PCR may be used to amplify nucleic acids in the sample, which may provide higher sensitivity.

The level of the nucleic acid in the sample may also be compared to a control cell (e.g., a normal cell) to determine whether the nucleic acid is differentially expressed (e.g., overexpressed or underexpressed). The ability to identify miRNAs that are differentially expressed in pathological or differentiated cells compared to a control can provide high-resolution, high-sensitivity datasets which may be used in the areas of diagnostics, prognostics, therapeutics, drug development, pharmacogenetics, biosensor development, and other related areas. An expression profile generated by the current methods may be a “fingerprint” of the state of the sample with respect to a number of miRNAs. While two states may have any particular miRNA similarly expressed, the evaluation of a number of miRNAs simultaneously allows the generation of a gene expression profile that is characteristic of the state of the cell. That is, normal tissue may be distinguished from diseased tissue. By comparing expression profiles of tissue in known different disease states, information regarding which miRNAs are associated in each of these states may be obtained. Then, diagnosis may be performed or confirmed to determine whether a tissue sample has the expression profile of normal or disease tissue. This may provide for molecular diagnosis of related conditions.

The expression level of a disease- or differentiation-associated nucleic acid is information in a number of ways. For example, a differential expression of a disease- or differentiation-associated nucleic acid compared to a control may be used as a diagnostic that a patient suffers from the disease. Expression levels of a disease- or differentiation-associated nucleic acid may also be used to monitor the treatment and disease state of a patient. Furthermore, expression levels of a disease- or differentiation-associated miRNA may allow the screening of drug candidates for altering a particular expression profile or suppressing an expression profile associated with disease or state of differentiation.

A target nucleic acid may be detected and levels of the target nucleic acid measured by contacting a sample comprising the target nucleic acid with a biochip comprising an attached probe sufficiently complementary to the target nucleic acid and detecting hybridization to the probe above control levels.

The target nucleic acid may also be detected by immobilizing the nucleic acid to be examined on a solid support such as nylon membranes and hybridizing a labeled probe with the sample. Similarly, the target nucleic may also be detected by immobilizing the labeled probe to a solid support and hybridizing a sample comprising a labeled target nucleic acid. Following washing to remove the non-specific hybridization, the label may be detected.

The target nucleic acid may also be detected in situ by contacting permeabilized cells or tissue samples with a labeled probe to allow hybridization with the target nucleic acid. Following washing to remove the non-specifically bound probe, the label may be detected.

These assays can be direct hybridization assays or can comprise sandwich assays, which include the use of multiple probes, as is generally outlined in U.S. Pat. Nos. 5,681,702; 5,597,909; 5,545,730; 5,594,117; 5,591,584; 5,571,670; 5,580,731; 5,571,670; 5,591,584; 5,624,802; 5,635,352; 5,594,118; 5,359,100; 5,124,246; and 5,681,697, each of which is hereby incorporated by reference.

A variety of hybridization conditions may be used, including high, moderate and low stringency conditions as outlined above. The assays may be performed under stringency conditions which allow hybridization of the probe only to the target. Stringency can be controlled by altering a step parameter that is a thermodynamic variable, including, but not limited to, temperature, formamide concentration, salt concentration, chaotropic salt concentration pH, or organic solvent concentration.

Hybridization reactions may be accomplished in a variety of ways. Components of the reaction may be added simultaneously, or sequentially, in different orders. In addition, the reaction may include a variety of other reagents. These include salts, buffers, neutral proteins, e.g., albumin, detergents, etc. which may be used to facilitate optimal hybridization and detection, and/or reduce non-specific or background interactions. Reagents that otherwise improve the efficiency of the assay, such as protease inhibitors, nuclease inhibitors and anti-microbial agents may also be used as appropriate, depending on the sample preparation methods and purity of the target.

Diagnostic

A method of diagnosis is also provided. The method comprises detecting a differential expression level of a disease- or differentiation-associated nucleic acid in a biological sample. The sample may be derived from a patient. Diagnosis of a disease or state of differentiation in a patient may allow for prognosis and selection of therapeutic strategy.

In one embodiment, a method permits the diagnostic or prognosis of diseases that are characterized by or associated with an abnormal number or location of incompletely differentiated cells, e.g., stem-progenitor cells, e.g. HSPCs. Exemplary diseases include cancer, leukemia, and other diseases described herein. For example, the presence of an unsually or abnormally high number of stem or stem-progenitor cells may be indicative of the presence or likelihood of development of a disease. Monitoring the presence and/or number of stem-progenitor cells may also be used to monitor the progression of a diseas and/or the response to treatment.

In situ hybridization of labeled probes to tissue arrays may be performed. When comparing the fingerprints between an individual and a standard, the skilled artisan can make a diagnosis, a prognosis, or a prediction based on the findings. It is further understood that the genes which indicate the diagnosis may differ from those which indicate the prognosis and molecular profiling of the condition of the cells may lead to distinctions between responsive or refractory conditions or may be predictive of outcomes. Such methods may be performed in vitro or in vivo.

In certain embodiments, the miRNAs presented herein are useful to determine the lineage of a cell and to classify a cell or pathological condition. The expression level of these miRNAs can also be correlated with clinical data.

Screening Assays

The present invention also contemplates the screening of compounds, e.g., peptides, polypeptides, nucleic acids or small molecules, for various abilities to mimic, or interfere with the function of the miRNAs described herein. In the screening assays of the present invention, the candidate substance may first be screened for basic biochemical activity—e.g., binding to a target RNA sequence, inhibition of miRNA binding thereto, alteration in gene expression—and then further tested for function in at the cellular or whole animal level.

The present invention provides methods of screening for agents that alter the activity or expression of miRNAs. As used herein, the term “candidate substance” refers to any molecule that may potentially modulate the function of one or more of the miRNAs in SEQ ID NOS: 1-34. The candidate substance may be a protein, peptide, or a small molecule inhibitor, or even a nucleic acid molecule.

One may acquire, from various commercial sources, small molecule libraries that are believed to meet the basic criteria for useful drugs in an effort to identify useful compounds. Screening of such libraries, including combinatorially generated libraries (e.g., peptide libraries), is a rapid and efficient way to screen large number of related (and unrelated) compounds for activity. Combinatorial approaches also lend themselves to rapid evolution of potential drugs by the creation of second, third and fourth generation compounds modeled of active, but otherwise undesirable compounds.

Candidate compounds may include fragments or parts of naturally-occurring compounds or may be found as active combinations of known compounds which are otherwise inactive. It is proposed that compounds isolated from natural sources, such as animals, bacteria, fungi, plant sources, including leaves and bark, and marine samples may be assayed as candidates for the presence of potentially useful pharmaceutical agents. It will be understood that the pharmaceutical agents to be screened could also be derived or synthesized from chemical compositions or man-made compounds. Thus, it is understood that the candidate substance identified by the present invention may be a polypeptide, polynucleotide, small molecule or any other compounds that may be developed through random discovery or rational drug design starting from known compounds that affect these miRNAs.

It will, of course, be understood that all the screening methods of the present invention are useful in themselves notwithstanding the fact that effective candidates may not be found. The invention provides methods for screening for such candidates, not solely methods of finding them.

Various cells naturally express one or more of the miRNAs in SEQ ID NOS: 1-34 and can be utilized for screening of candidate substances. In one embodiment, hematopoetic cells are used, or progenitors thereof Other cells may be engineered to express one or more of the miRNAs in SEQ ID NOS: 1-34, or may contain the control regions for these miRNAs linked to screenable marker genes, permitting one to assess the effects of a candidate substance on the expression of one or more of the miRNAs in SEQ ID NOS: 1-34.

Assays may be employed within the scope of the instant invention for determination of the relative efficiency of gene expression. Gene expression may be determined by measuring the production of miRNA in question, or by use of a reporter. The product may be isolated and/or detected by methods well known in the art. Following detection, one may compare the results seen in a given cell line or individual with a reference group of non-transformed control cells.

Significantly, RT-PCR (reverse transcription-polymerase chain reaction) is the most sensitive technique for mRNA quantitation currently available. Compared to the two other commonly used techniques for quantifying mRNA levels, Northern blot analysis and RNase protection assay, RT-PCR can be used to quantify mRNA levels from much smaller samples. In fact, this technique is sensitive enough to enable quantitation of RNA from a single cell.

Over the last several years, the development of novel chemistries and instrumentation platforms enabling detection of PCR products on a real-time basis has led to widespread adoption of real-time RT-PCR as the method of choice for quantitating changes in gene expression. At the start of any PCR reaction, the amplification proceeds at a constant, exponential rate, due to the excess of reagents. The reaction rate ceases to be exponential and enters a linear phase of amplification, after which the amplification rate drops to near zero (plateaus), and little more product is made. In order to accurately assess nucleic acid quantiteis, it is necessary to collect data at a point in which every sample is in the exponential phase of amplification, since it is only in this phase that amplification is extremely reproducible. Unfortunately, the point at which this transition takes place is highly variable. Real-time PCR automates this otherwise laborious process by quantitating reaction products for each sample in every cycle. The result is an amazingly broad 10⁷-fold dynamic range, with no user intervention or replicates required.

Another option for quantitating RNA species is relative quantitative RT-PCR, which uses primers for an internal control that are multiplexed in the same RT-PCR reaction with the gene specific primers. Internal control and gene-specific primers must be compatible, i.e., they must not produce additional bands or hybridize to each other. Common internal controls include .beta.-actin and GAPDH mRNAs and 18S rRNA. Unlike Northerns and nuclease protection assays, the selection and implementation of controls in relative quantitative RT-PCR requires substantial optimization.

Other assays provided herein allow for the identication of genes that are involved in stem cell differentation and proliferation or other characteristic of a stem or stem-progenitor cell. An assay may comprise identifying a gene that comprises, e.g., in an untranslated region, a nucleotide sequence that is signigicantly identical to or complementary to the sequence of a miRNA identified herein as involved in stem-progenitor cell differentiation, e.g., a miRNA set forth in Table 1 or 6.

Gene Silencing

A method of reducing expression of a target gene in a cell, tissue or organ is also provided. Expression of the target gene may be reduced by expressing a nucleic acid described herein that comprises a sequence substantially complementary to one or more binding sites of the target mRNA. The nucleic acid may be a miRNA comprising SEQ ID NOS: 1-33 or a variant thereof. The nucleic acid may also be pri-miRNA, pre-miRNA, or a variant thereof, which may be processed to yield a miRNA. The expressed miRNA may hybridize to a substantially complementary binding site on the target mRNA. An example for a study employing over-expression of miRNA is Yekta et al 2004, Science 304-594, which is incorporated herein by reference. One of ordinary skill in the art will recognize that the nucleic acids described herein may also be used to inhibit expression of target genes or inhibit activity of miRNAs using antisense methods well known in the art, as well as RNAi methods described in U.S. Pat. Nos. 6,506,559 and 6,573,099, which are incorporated by reference.

The target of gene silencing may be a protein that causes the silencing of a second protein. By repressing expression of the target gene, expression of the second protein may be increased. Examples for efficient suppression of miRNA expression are the studies by Esau et al 2004 JBC 275-52361; and Cheng et al 2005 Nucleic Acids Res. 33-1290, which is incorporated herein by reference. Such methods may be performed in vitro or in vivo.

Enhancement of Gene Expression

A method of increasing expression of a target gene in a cell, tissue or organ is also provided. Expression of the target gene may be increased by expressing a nucleic acid described herein that comprises a sequence substantially complementary to a pri-miRNA, pre-miRNA, miRNA or a variant thereof, e.g., a complement of SEQ ID NOS: 1-34. The nucleic acid may be an anti-miRNA. The anti-miRNA may hybridize with a pri-miRNA, pre-miRNA or miRNA, thereby reducing its gene repression activity. Expression of the target gene may also be increased by expressing a nucleic acid that is substantially complementary to a portion of the binding site in the target gene, such that binding of the nucleic acid to the binding site may prevent miRNA binding. Such methods may be performed in vitro or in vivo.

Therapeutics

Modulating the differentiation of stem cells, e.g., hematopoietic stem cells, may be used for treating or preventing a disease or condition. For example, a subject may receive an agonist of one or more of the miRNAs having any one of SEQ ID NOs: 1-33 (“HSPC miRNAs) or of one of the stem cell miRNAs to block cell differentiation in situations in which an excessive cell differentiation is present and/or insufficient amounts of undifferentiated cells are present in the subject. Such conditions may include those in which a subject has been treated, e.g., by irradiation and has lost a considerable amount of undifferentiated cells or HSPCs. A subject may receive one or more agonists to thereby increase the number of stem progenitor cells.

In other embodiments, in which it is necessary to increase the number of differentiated cells in a subject, a treatment may comprise administering an agonist of one or more stem cell miRNA or HSPC miRNA. For example, a subject having cancer may be treated by receiving one or more antagonists of one or stem cell miRNA or HSPC miRNA, such as to stimulate the differentiation of an undifferentiated cancer cell to thereby reduce the number of cancer cells. Other conditions in which one may want to induce the differentiation of a stem-progenitor cell include those associated with an insufficient number of a differentiated cell, e.g., a differentiated or partially differentiated hematopoietic cell. Exemplary conditions or diseases that may be treated with antagonists include those associated with insufficient leukocytes (leukopenia, e.g., graynulocytosis, neutropenia such as drug or chemotherapy induced neutropenia, and congenital neutropenia); insufficient lymphocytes, insufficient red blood cells (e.g., anemias, such as aplastic anemia, nutritional deficiency anemia, hemolytic anemia); or insufficient platelets (thrombocytopenia). Other diseases include immunodeficiency diseases, e.g., inherited immunodeficiency diseases, drug or therapy induced immunodeficiency diseases, HIV-immunodeficiency diseases. Yet other diseases in which differentiation of cells may be beneficial include blood cancers in which undifferentiated or partially differentiated cells accumulate, e.g., leukemias and lymphomas (e.g., Hodgkin's and non Hodgkin's lymphomas, acute leukemias, e.g., lymphoblastic (ALL) and myelogenous (AML) and chronic leukemias).

Other conditions that may benefit from methods of modulating stem-progenitor cell differentiation include stem cell transplantation, graft versus host disease, and transplantation, e.g., bone marrow transplantation.

Methods described herein may also be used for stem cell treatments. Diseases that would benefit from stem cell treatments include Parkinson's disease, spinal cord injuries (as well as other neuromuscular or neurological degenerative diseases), cancer, muscle damage, bone marrow transplants, leukemias and lymphomas. Generally, disorders that can be treated by infusion of stem cells include but are not limited to five broad categories. First are diseases resulting from a failure or dysfunction of normal blood cell production and maturation (i.e., aplastic anemia and hypoproliferative stem cell disorders). The second group are neoplastic, malignant diseases in the hematopoietic organs (e.g., leukemias, lymphomas, myelomas):The third group of disorders comprises those of patients with a broad spectrum of malignant solid tumors of non-hematopoietic origin. Stem cell infusion in these patients serves as a bone marrow rescue procedure, which is provided to a patient following otherwise lethal chemotherapy or irradiation of the patient, designed to eliminate malignant tumor cells. The fourth group of diseases consists of autoimmune conditions, where the stem cells serve as a source of replacement of an abnormal immune system. The fifth group of diseases comprises a number of genetic disorders which can be corrected by infusion of hematopoietic stem cells, preferably syngeneic, which prior to transplantation have undergone gene therapy. Particular diseases and disorders which can be treated by hematopoietic reconstitution with substantially enriched population of hematopoietic stem cells include but are not limited to those listed here: Diseases resulting from a failure or dysfunction of normal blood (cell production and maturation, hyperproliferative stem cell disorders, aplastic anemia, pancytopenia, agranulocytosis, thrombocytopenia, red cell aplasia, Blackfan-Diamond syndrome, due to drugs, radiation, or infection, idiopathic); Hematopoietic malignancies (acute lymphoblastic (lymphocytic) leukemia, chronic lymphocytic leukemia, acute myelogenous leukemia, chronic myelogenous leukemia, acute malignant myelosclerosis, multiple myeloma, polycythemia vera, agnogenic myelometaplasia, Waldenstrom's macroglobulinemia, Hodgkin's lymphoma, non-Hodgkins's lymphoma); Malignant, solid tumors (malignant melanoma, carcinoma of the stomach, ovarian carcinoma, breast carcinoma, small cell lung carcinoma, retinoblastoma, testicular carcinoma, glioblastoma, rhabdomyosarcoma, neuroblastoma, Ewing's sarcoma, lymphoma); Autoimmune diseases (rheumatoid arthritis, diabetes type I, chronic hepatitis, multiple sclerosis, systemic lupus erythematosus); Genetic (congenital) disorders (anemias, familial aplastic, Fanconi's syndrome, Bloom's syndrome, pure red cell aplasia (PRCA), dyskeratosis congenita, Blackfan-Diamond syndrome, congenital dyserythropoietic syndromes I-IV, Schwachmann-Diamond syndrome, dihydrofolate reductase deficiencies, formamino transferase deficiency, Lesch-Nyhan syndrome, congenital spherocytosis, congenital elliptocytosis, congenital stomatocytosis, congenital Rh null disease, paroxysmal nocturnal hemoglobinuria, G6PD (glucose-6-phosphate dehydrogenase) variants 1, 2, 3, pyruvate kinase deficiency, congenital erythropoietin sensitivity deficiency, sickle cell disease and trait, thalassemia alpha, beta, gamma, met-hemoglobinemia, congenital disorders of immunity, severe combined immunodeficiency disease (SCID), bare lymphocyte syndrome, ionophore-responsive combined immunodeficiency, combined immunodeficiency with a capping abnormality, nucleoside phosphorylase deficiency, granulocyte actin deficiency, infantile agranulocytosis, Gaucher's disease, adenosine deaminase deficiency, Kostmann's syndrome, reticular dysgenesis, congenital leukocyte dysfunction syndromes) and Others (osteopetrosis, myelosclerosis, acquired hemolytic anemias, acquired immunodeficiencies, infectious disorders causing primary or secondary, immunodeficiencies, bacterial infections (e.g., Brucellosis, Listerosis, tuberculosis, leprosy), parasitic infections (e.g., malaria, Leishmaniasis), fungal infections, disorders involving disproportions in lymphoid cell sets and, impaired immune functions due to aging, phagocyte disorders, Kostmann's agranulocytosis, chronic granulomatous disease, Chediak-Higachi syndrome, neutrophil actin deficiency, neutrophil membrane GP-180 deficiency, metabolic storage diseases, mucopolysaccharidoses, mucolipidoses, miscellaneous disorders involving immune mechanisms, Wiskott-Aldrich Syndrome, alpha 1-antitrypsin deficiency).

Any of the disorders set forth in the previous paragraph may also be diagnosed as further described herein.

Compositions, e.g., pharmaceutical compositions are also provided herein. A composition may comprise 1, 2, 3, 4, 5, 6, 7, 8, 9,10, 15, 20, 25, 30, 31, 32, 33 or 34 agonists or antagonists or combinations thereof of miRNAs described herein.

In some embodiments, therapeutic compositions and methods may include the use of modified miRNAs or miRNA antagonists, including 2-O-methyl oligoribonucleotides (2-O-Me-RNAs). Cell permeable forms of these 2-O-Me-RNAs, known as antagomirs, are also contemplated. Antagomirs have been successfully used to down-regulate mi-RNAs in mouse tissue, in vivo, after intravenous injection (Krutzfeldt et al., 2005, Nature, 438: 685-689). Other modifications may include the introduction of phosphorothioate linkages, the addition of 2-O-methoxyethyl groups, and the addition of a cholesteryl or cholesterol moiety. Locked nucleic acid molecules, wherein the 2′-O-oxygen of a 2′-O-modified RNA is bridged to the 4′ position via a methylene linker, to form a rigid bicycle locked into a C3′-endo (RNA) sugar conformation are also contemplated.

The following publications are incorporated by reference in their entirety: Mack, 2007, Nature, 25: 631-638; Blenkiron, 2007, Human Molecular Genetics, 16: R106-R113; Hammond, 2006, Trends in Molecular Medicine, 12: 99-101; Krutzfeldt, 2006, Nature Genetics Supplment, 38: S14-S19; Wurdinger and Costa, 2007, The Pharmacogenomics Journal, 7: 297-304; Hunziker and Hall, 2006, Gene Therapy, 13: 496-502.

Compositions

A pharmaceutical composition is also provided. The composition may comprise a nucleic acid described herein and optionally a pharmaceutically acceptable carrier and/or excipient. The compositions may be used for diagnostic or therapeutic applications. The pharmaceutical composition may be administered by known methods, including wherein a nucleic acid is introduced into a desired target cell in vitro or in vivo. Commonly used gene transfer techniques include calcium phosphate, DEAE-dextran, electroporation, microinjection, viral methods and cationic liposomes. In some embodiments, the compositions may include the use of synthetic miRNAs, which are more potent than naturally occurring miRNAs (Chang D Z, Clin Cancer Res, 2006, 12: 6557-6564).

Kits

A kit is also provided comprising a nucleic acid described herein together with any or all of the following: assay reagents, buffers, probes and/or primers, and sterile saline or another pharmaceutically acceptable emulsion and suspension base. In addition, the kits may include instructional materials containing directions (e.g., protocols) for the practice of the methods described herein.

Method of Synthesis

A method of synthesizing the reverse-complement of a target nucleic acid is also provided. The reverse complement may be synthesized according to methods outlined in U.S. Pat. No. 11/384,049, the contents of which are incorporated herein by reference.

Method of Detection

A method of detecting a target nucleic acid in a biological sample is also provided. The target nucleic acid may be detected according to methods outlined in U.S. Pat. No. 11/384,049, the contents of which are incorporated herein by reference.

Examples

Abbreviations: BM, bone marrow; HE-miRNA, hematopoietic-expressed microRNA; HSPCs, hematopoietic stem-progenitor cells; miRNAs, microRNAs; PBSC, peripheral blood stem cell; RFU, relative fluorescence units.

Example 1 Abstract

MicroRNAs (miRNAs) are a recently identified class of epigenetic elements consisting of small noncoding RNAs that bind to the 3′ untranslated region of mRNAs and down-regulate their translation to protein. miRNAs play critical roles in many different cellular processes including metabolism, differentiation, and development. The present inventors have found 33 miRNAs expressed in CD34+ hematopoietic stem-progenitor cells (HSPCs) from normal human bone marrow and mobilized human peripheral blood stem cell harvests. The inventors then combined these data with human HSPC mRNA expression data and with miRNA-mRNA target predictions, into a previously undescribed miRNA:mRNA interaction database called the Transcriptome Interaction Database. The in silico predictions from the Transcriptome Interaction Database pointed to miRNA control of hematopoietic differentiation through translational control of mRNAs critical to hematopoiesis. From these predictions, the inventors formulated a model for miRNA control of stages of hematopoiesis in which many of the genes specifying hematopoietic differentiation are expressed by HSPCs, but are held in check by miRNAs until differentiation occurs. The inventors validated miRNA control of several of these target mRNAs by demonstrating that their translation in fact is decreased by miRNAs. Finally, the inventors chose miRNA-155 for functional characterization in hematopoiesis, because it was predicted that it would control both myelopoiesis and erythropoiesis. As predicted, miRNA-155 transduction greatly reduced both myeloid and erythroid colony formation of normal human HSPCs.

miRNA Expression in CD34+ Cells.

The expression of 228 human miRNAs in CD34+ HSPCs obtained from normal donor PBSC or BM harvests (FIG. 7) was measured. Mean background was 47,458 relative fluorescence units (RFU) for PBSC and 34,676 RFU for BM CD34+ cells. After normalization of the data with GeneSpring software, the minimum cutoff for an expressed miRNA was calculated to be 96,900 RFU for PBSC and 74,509 RFU for BM CD34+ cells. Filtering for expression, in combination with a Student's t test significance threshold of 0.05, yielded 35 miRNAs expressed in PBSC and 78 miRNAs in BM CD34+ cells (FIG. 8). Intersection analysis (8) of these data sets (Table 1) identified 31 mature miRNAs and 2 precursor miRNAs, 33 miRNAs in total, expressed by CD34+ cells from both PBSC and BM, which were designated hematopoietic-expressed-miRNAs.

HE-miRNAs are Predicted to Regulate Several mRNAs Expressed in CD34+ Cells.

Combining the prior HSPC mRNA expression data sets (8) with the miRNA expression data generated in the current study, along with the miRNA target predictions (9-11), the inventors mapped each of the 33 HE-miRNAs to its multiple predicted target mRNA transcripts expressed in CD34+ cells (from both PBSC and BM). mRNAs (16.7%) expressed by CD34+ HSPCs (HE-mRNAs) from both PBSC and BM are predicted to be regulated by at least one HE-miRNA (i.e., 1,230 of the 7354 mRNAs expressed by CD34+ cells potentially were HE-miRNA-regulated; FIGS. 9 and 10), including several mRNAs thought to be associated with hematopoietic differentiation (Table 2). These in silico data allowed the inventors to formulate a bioinformatic model predicting which HE-miRNAs may control hematopoietic differentiation and at which hematopoietic stages they may act (FIG. 1).

TABLE 2 HSPC-expressed mRNAs associated with hematopoietic differentiation and predicted to be regulated by HE-miRNAs Erythroid*

Myeloid

Lymphoid

miRNAs in bold are those that, based on the number of predicted target rnRNAs they hit as well as on the strength of association to each category based on the annotation, the inventors predict will be the major regulators of each particular category of differentiation. mRNAs are grouped into categories reflecting their roles in lymphoid, myeloid, and/or erythroid differentiation. HE-miRNAs Regulate Hematopoietic Differentiation-Associated mRNAs in CD34+ cells. Of the HSPC-expressed mRNAs putatively targeted by HE-miRNAs, 18 mRNAs were selected, because they were either well established and/or annotated to have a role in regulation of hematopoietic differentiation. For each of these selected “hematopoietic differentiation-associated” mRNAs, the 3′ UTR was cloned into the 3.1-Luc expression vector. K562 cells were transduced with each chimeric luc-3′ UTR mRNA. Luc activity in the transduced K562 cells for the following mRNAs was reduced by 52-92% as compared with the luc-positive control: BCL2, C/EBP-beta, CXCR4, GATA2, GATA3, HES1, HOXA9, HOXA10, HOXB5, HOXB7, KLF2, MEIS1, MYB, AML1/RUNX1, and RUNX3 (FIG. 2). However, luc activity of the SOCS2 and WWP2 constructs was increased compared with the luc-positive control; these two activities were identical to that of a chimeric mRNA (Luc-nmiR) containing a 3′UTR devoid of predicted miRNA-binding sites, which (for unknown reasons) resulted in almost twice the control luc activity. Thus, the predictions of targets of the HE-miRNA data resulted in a false-positive rate of 10.5%, considerably lower than the 25-40% false-positive rate postulated by Bentwich (12).

The inventors further characterized HE-miRNA translational control of two of the hematopoietic differentiation-associated mRNAs, by deleting the 21- to 25-nt miRNA binding sites from the 3′ UTRs in the chimeric luc reporter constructs (FIG. 3). Deletion of the miRNA-92-binding site from the KLF2 3′ UTR restored luc expression, demonstrating that miRNA-92 regulates KLF2 in hematopoietic cells. Similarly, deletion of the binding site for miRNA-181 from the CXCR4 3′ UTR resulted in restoration of luc activity, whereas deletion of the miRNA-92-binding site from the CXCR4 3′UTR did not significantly change luc activity, indicating that CXCR4 is specifically modulated by mlRNA-181.

miRNA-155 Controls Myeloid and Erythroid Differentiation.

miRNA-155 was predicted to block hematopoietic differentiation along more than one lineage (FIG. 1), because it was predicted to block protein expression of CREBBP, CXCR4, JUN, MEIS1, PU.1, AGTR1, AGTRII, FOS, and GATA3. Consistent with this Prediction, <I% of miRNA-155-transduced K562 cells, as compared with about 65% of control cells, were treated with hemin differentiated toward erythrocytes (data not shown). In addition, 57%±3% of miRNA-155-transduced K562 cells expressed CD41 (mean fluorescence intensity (MFI)=11.5±1.2), in comparison with 78±5% of control K562 cells (MFI=32.8±3.5) treated with IDB-expressed CD41 (data not shown). Both the decrease in percentage of cells positive for CD41, as well as the about 3-fold decrease in MFI, are indicative of a large decrease in K562 cell megakaryocytic differentiation (13-15). K562 cells transduced with miRNA-155 proliferated at a similar rate to those transduced with control vector (data not shown), indicating that the observed lack of differentiation was not due to cell cycle arrest or decreased cell growth rate.

Normal human PBSC CD34+ cells were transduced with FUG W-miRNA-155, and assayed for hematopoietic colony formation. miRNA-155-transduced cells generated 5-fold fewer myeloid and 3-fold fewer erythroid colonies. Furthermore, the colonies generated by miRNA-155-transduced cells were much smaller than controls (FIG. 4). These data demonstrate that miRNA-155 can control both myeloid and erythroid differentiation of human HSPCs.

Discussion

The present inventors used bioinformatic techniques to combine human HSPC miRNA expression with mRNA expression to begin to define the roles that HE-miRNAs play in human hematopoiesis. The bioinformatic and functional analyses of HE-miRNA action indicate that multiple miRNAs, including miRNA-17, -24, -146, -155, -128, and -181, may hold early hematopoietic cells at an early stem-progenitor stage, blocking their differentiation to more mature cells. miRNA-16, -103, and -107 may block differentiation of later progenitor cells; miRNA-221, -222, and -223 most likely act to control terminal stages of hematopoietic differentiation (FIG. 1). As an initial validation of the in silico predictions, the inventors demonstrate that miRNA-155 is a potent inhibitor of HSPC differentiation.

In a prior mRNA expression study (8), the inventors demonstrated that many genes known to be associated with differentiation of HSPCs (including RUNX1, MEIS1, ETS1, and PU.1) are equivalently expressed at the mRNA level in both the HSC-enriched and the more differentiated HPC-enriched populations. The Transcriptome Interaction Database predicts that about 16.7% of the mRNAs expressed by HSPCs may be regulated at the translational level by the 33 HE-miRNAs. Taking into account the consensus that such predictions likely contains 25% false-positives (12), it is estimated that 10.5% of the HSPC-expressed mRNAs are controlled by HE-miRNAs. This is in concordance with a recent study (16), which compared a limited proteome of HSPCs to various transcriptome studies (including the inventors' own study; ref 8) and found that the expression of about 15% of proteins were underestimated by their mRNA expression levels.

Based on their predicted mRNA targets, it was found that the HE-miRNAs annotated as having hematopoietic function fall into three categories (FIG. 1): (i) those which might inhibit differentiation of all hematopoietic lineages (including B/T/NK lymphoid) by regulating molecules critical to very early steps in hematopoiesis (miRNA-181 and -128); (ii) those that might act in differentiation of (a) lymphoid (miRNA-146); (b) granulocytic/monocytic/erythroid/megakaryocytic/B-lymphoid (miRNA-155, -24, and -17), or (c) granulocytic/monocytic/B-lymphoid (miRNA-16, -103, and -107); and (iii) in combination with other published studies (3-5), those that act only on one specific lineage of blood cells (miRNA-221 and -222 in erythroid development and miRNA-223 in granulocytic development).

The model and specific in silico predictions were validated by testing HE-miRNA translational repression of selected predicted target mRNAs. Of the 18 hematopoietic differentiation-associated mRNAs tested in the model system, it was found that protein expression from 16 were down-regulated greatly in K562 cells expressing the implicated HE-miRNAs. The translational repression that was observed was generally quantitatively greater than that of other past miRNA functional studies, where a 40-60% miRNA-mediated decrease in protein expression has proven to be biologically relevant (4,5). Other studies, although correct, may greatly underestimate the translational repression mediated by HE-miRNAs, because of several factors. First, the present inventors extensively optimized their assays to quantify differences in protein expression. Because the CMV promoters used in these plasmids are such strong initiators of transcription, the present inventors strove for a “low-level” transfection in an attempt to minimize the number of plasmids entering individual cells. Further, the present inventors added the additional control of a chimeric-mRNA containing a 3′ UTR having no predicted miRNA-binding sites. This control vector resulted in twice the amount of luc expression compared with the control vector containing no 3′UTR sequence. It may be that using only a luc alone leads to a major underestimation of miRNA action, and the luc-nmiR may be a much more biologically relevant control, because it mimics the natural structure of mRNAs. To test more directly which miRNAs mediate the observed decrease in protein expression, for two targeted mRNAs, the present inventors produced chimeric mRNAs with 3′ UTRs that had specific deletions of only the predicted miRNA-binding site. In both cases, deletion of miRNA-binding sites completely restored protein expression.

To begin to confirm the biological effects of HE-miRNAs, miRNA-155 was studied because it was predicted to target multiple hematopoietic differentiation-associated molecules, including C/EBP-beta, CREBBP, JUN MEIS1, PU.1, AGTR1, AGTR2, and FOS. In addition, it has been reported that miRNA-155 is overexpressed in undifferentiated CD34+/CD38− acute myeloid leukemia (AML) stem cells and that ectopic over-expression of miRNA-155 in AML cells blocks differentiationli. In the inventors' studies, transduction of cells with miRNA-155 followed by treatment with each of two chemical inducers of differentiation showed that miRNA-155 decreased both erythroid and megakaryocytic differentiation in K562 cell line models of human hematopoiesis. More important, miRNA-155-transduced normal human CD34+ cells generated far fewer (and smaller) myeloid and erythroid colonies than controls. Thus, miRNA-155 negatively regulates normal myelopoiesis and erthryopoiesis.

Most of the cells within the CD34+ population that were studied have differing degrees of self-renewal capacity. In that light, perhaps it is not surprising that the present inventors did not identify any HE-miRNAs that targeted mRNAs and are thought to be involved in self-renewal, such as HOX-B4 (18) and BMI-1 (19, 20).

Three other studies have begun to examine the functional role of miRNAs in the differentiation of specific aspects of hematopoiesis. Fazi et al. (5) showed that murine mmu-miRNA-223 up-regulates mouse granulopoiesis by blocking protein expression of NFI-A, a factor that represses granulopoiesis. The myeloid regulator C/EBP-alpha drives miRNA-223 expression, thereby removing NFI-A mediated differentiation repression. The model of human HE-miRNA regulation of hematopoiesis agrees with this finding in that the Transcriptome Interaction Database predicts that human hsa-mir-223 regulates human NFI-A translation.

Felli et al. (4) showed that human miRNA-221 and -222 block erythropoiesis via translational repression of c-KIT. The inventors' findings strongly support that miRNA-221 and -222 block erythropoiesis. Not only do the in silico studies predict that miRNA-221 and -222 block c-KIT translation, but they also predict that they may block CREBBP, FOS, and PPAR-gamma (additional molecules highly associated with erythroid differentiation) (21-24). miRNA-221 and -222 also may be more generalized inhibitors of hematopoietic differentiation, because the data (Table 2) predict that they also may regulate myeloid differentiation-associated molecules (FIG. 2; MEIS1 and ETS1, both proteins shown to be involved in myeloid development (25, 26), and FOS, which has been implicated in lymphopoiesis; ref 27 and unpublished data). Consistent with this, Felli et at (4) found that overexpression of miRNA-221 and -222 inhibited engraftment of human CD34+ cells in NOD-scid mice, pointing to a more generalized role in differentiation.

Chen et al. (3) studied the role of mmu-mir-142, -181, and -223 in mouse hematopoiesis and found that ectopic overexpression of miRNA-181 in mouse HSPCs resulted in an increase in B-lymphopoiesis, and miRNA-142 and -223 resulted in small but significant increases in T-lymphopoiesis. Unfortunately, the relevant target mRNAs were not determined in that early study. It is important to note that although miRNA-181 is strongly expressed in human CD34+ cells, in the murine system, it seems to be expressed selectively in B lymphocytes. In fact, in human BM, miRNA-181 is expressed more weakly than miRNA-146, an miRNA that Chen et al. (3) finds expressed strongly in all mouse hematopoietic tissues. In addition, the present inventors found that miRNA-142 is not expressed in human HSPCs. Thus, these HE-miRNAs may be expressed and act differently in human hematopoiesis than in mouse hematopoiesis; this interpretation is substantiated by the finding that the same types of human and mouse hematopoietic cells show large differences in miRNA expression (28). Although the predictive data are consistent with a possible outcome that miRNA-181 may affect B lymphoid development, the in silico model indicates that miRNA-181 and miRNA-146 might block differentiation very early in human lymphopoiesis.

This in silico bioinformatic study combines global miRNA and mRNA expression data into a model for exploring the action of miRNAs within a cellular system. The present inventors validated the in silico predictions in two ways: (i) The present inventors showed that 16 of 18 “hematopoietic” mRNAs are controlled by HE-miRNAs and (ii) the inventors functionally validated miRNA-155 as potent controller of normal human myelopoiesis and erythropoieis. A skilled artisan will recognize that these studies will serve to guide the work of other researchers examining the role of miRNAs in hematopoiesis. In certain emodiments, the present invention has utility in models in which many of the genetic components associated with hematopoietic differentiation are expressed at an early time point by undifferentiated HSPCs but are controlled by HE-miRNA-mediated repression of protein translation until differentiation is initiated.

Methods

Cell Samples. Human CD34+ cells. Cryopreserved cadavaric BM and PBSC CD34+ cells from normal adult donors were obtained from the National Heart, Lung, and Blood Institute Program of Excellence in Gene Therapy, Hematopoietic Cell Processing Core (Fred Hutchison Cancer Center). Each BM sample was a pool of cells from two donors. Each PBSC sample was a pool from three to five donors. CD34+ cells were thawed and washed twice with PBS (8).

Cell lines. HEK 293T, Hal-01, HL60, K562, KG1, KG1a, MV-4-1, REH, TF1, and TF1a cell lines were purchased from the American Type Culture Collection (ATCC; Manassas, Va.). A different K562 cell subline, used in the cellular differentiation studies, was provided by Michael McDevitt (The Johns Hopkins University) (29). All cells were cultured by following instructions provided by the ATCC.

miRNA Expression Microarrays. CD34+ cells were disrupted with TRIzol Reagent (15596-018; Invitrogen. Carlsbad, Calif.). Five micrograms of total RNA obtained from the TRIzol preparations were analyzed with miRNA chips (30). Standard microarray methods were used for normalization and statistical analysis of the miRNA expression data. Statistical analyses were carried out in GeneSpring 7.0 (Silicon Genetics/Agilent Technologies, Palo Alto, Calif.) to determine the RFU value fora 95% confidence cutoff for miRNA expression. Significantly expressed miRNAs were identified by using the GeneSpring Cross-Gene Error Model (8). Thus, for each set of samples (PBSC or BM,) values from individual samples were normalized and averaged, then expressed miRNAs were identified as those with a P<0.05 of expression over background (i.e., the weighted averaged values of all chip measurements). Then, to perform intersection analysis, the inventors determined those microRNAs expressed by both PBSC and BM CD34+ samples at the P<0.05 significance level (Student's t test).

Bioinformatic Integration of mRNA and miRNA Expression Data. miRNA expression data, mRNA expression data (determined in ref. 8), and miRNA target prediction data (from Lewis et al., refs. 10 and 11; www.targetscan.org), Sloan-Kettering Cancer Center Human MicroRNA Targets Database (www.microRNA.org; ref. 9) and miRBase Targets (microrna.sanger.ac.uk/targets/v3) were combined in a Filemaker Pro 7.0 (Filemaker Corp., Santa Clara, Calif.) relational database, which was called the “Transcriptome Interaction Database.” Individual data tables consisted of miRNA expression from each individual sample, PBSC CD34+ cell mRNA expression data, BM CD34+ cell mRNA expression data, and miRNA targets predicted by each of the three databases. This integrated database allows the inventors to interrogate directly the predicted interactions of HE-miRNAs with HSPC-expressed mRNAs. Regulated mRNAs were annotated for possible hematopoietic function through both manual and electronic annotation. Manual annotation consisted of the authors scanning the lists of mRNA targets for those with known hematopoietic function. Electronic annotation consisted of querying the PubMed (www.ncbi.nlm.nih.gov/entrez/query.fcgi?holding=jhumlibfft_ndi) and Gene Ontology (www.geneontology.org) databases with search terms of the “gene common name” and terms including “hematopoiesis,” “myeloid,” “erythroid,” “blood,” etc. After compiling the list of candidate hematopoietic differentiation-associated mRNAs, PubMed searches were performed, and peer-reviewed publications were reviewed to assure that these mRNAs actually had been implicated in hematopoietic differentiation. At least two articles, each directly demonstrating either that the mRNA of interest is involved in differentiation or critical to a molecular pathway of a known hematopoietic regulator, were required for the mRNA to be scored as hematopoietic differentiation-associated. In addition, the present inventors also classified certain genes expressed in the HSC-enriched population (8) as hematopoietic differentiation-associated.

Functional Analysis of Expressed HE-miRNAs. Plasmids and constructs: Luciferase(luc)-3′ UTR reporter plasmids. The luc-coding sequence and 3′ multiple-cloning-site (MCS) from the promoterless pSP-luc+NF fusion vector (E4471; Promega, Madison, Wis.) were subcloned into the NheI and XhoI sites of the pcDNA3.1(+) expression vector (V79020; Invitrogen). The resulting plasmid (Luc-3′ UTR) construct contains a strong CMV promoter driving a luc-expression cassette, followed by a 3′ MCS. The 3′ UTR sequences from several hematopoietic differentiation-associated mRNAs were isolated by RT-PCR with primers containing restriction enzyme linkers. These 3′ UTR PCR fragments were cloned into the 3′ MCS of the Luc-3′ UTR reporter construct. The resulting chimeric mRNAs, containing luc and the 3′ UTR of the mRNA of interest, allowed for rapid functional analysis of miRNA translational control of mRNAs of interest (FIG. 6).

In addition, for certain of the luc-3′ UTR reporter plasmids, the present inventors produced variant constructs, in which specific miRNA-binding sites were deleted from the 3′ UTR (Luc-3′ UTR-DL constructs). Approximately 60-mer PCR primers, consisting of the 20-nucleotide (nt) sequence on either side of the miRNA-binding sites plus an intervening 25-bp spacer containing a Pad site, were generated (http://www.pnas.org/cgi/content/full/0610983104/DC1) and then used in full plasmid PCR (QuikChange XL Kit 200516; Stratagene, La Jolla, Calif.). Briefly, these primers span the deletion site but replace the sequence to be deleted with a unique restriction enzyme site that allows for rapid screening of clones with the deletion. The entire mutant plasmid then is produced via PCR, lacking the miRNA-binding site, as described in the manufacturer's protocol.

miRNA expression constructs. The hsa-mir-155 gene was cloned from K562 cell genomic DNA via PCR by using primers containing restriction enzyme linkers that would allow cloning into either the pcDNA3.1(+) expression vector (V79020; Invitrogen) or the FUGW lentiviral expression vector (31). The inventors used vectors containing strong PolII promoters, because miRNA expression and processing by Drosha, Exportin V, and Dicer seem to be much more reliable with longer 5′-capped-mRNA sequences produced by PolII, rather than shorter RNAs produced by PolIII promoters (32). The fragments produced by PCR contained the miRNA precursor (70-120 nt) flanked on both the 5′ and 3′ sides by 250 nt of genomic sequence, resulting in inserts of 570-620 nt.

Expression of miRNA precursor and mature sequences were tested by Lipofectamine (11668-019; Invitrogen) transfection of 293T cells with these expression constructs. Small RNAs were isolated from the transfected cells (MirVana miRNA Isolation Kit 1560; Ambion, Austin, Tex.). Precursor and mature miRNA expression was determined by miRNA RT-PCR (mirVana qRT-PCR miRNA Detection Kit 1158; Ambion; using specific mirVana qRT-PCR Primer Sets; Ambion) and/or by Northern blotting with ³²P-radiolabeled probes specific for the mature miRNA sequence (mirVana miRNA Probe Construction Kit 1550; Ambion).

HE-miRNA Translational Control of Hematopoietic Differentiation-Associated mRNAs Expressed in HSPCs. The inventors determined the miRNA expression of 10 hematopoietic cell lines and found that the K562 cell line expresses many HE-miRNAs (FIG. 13). Luc-3′ UTR and Luc-3′ UTR-DL constructs were electroporated into K562 cells (Nucleofector V Kit VCA-1003; Amaxa, Cologne, Germany; Nucleofector II Device AAD-1001; Amaxa). Control plasmids of backbone Luc-3.1 and Luc-nmiR (containing a 3′ UTR with no predicted miRNA-binding sites) controls also were used. Each electroporation included 100 ng of beta-galactosidase (beta-gal)-3.1 plasmid to allow normalization of luc activity. Three days after transfection, cells were lysed (Passive Lysis Buffer E194A; Promega), and luminescence was measured to quantify luc protein expression (Model 1500; Analytical Luminescence Laboratories, San Diego, Calif.; Luciferase Assay System E1501; Promega) and beta-gal expression (Galactolight Plus Kit; Tropix, Bedford, Mass.). Relative beta-gal units were used to generate individual normalization factors to standardize the Relative Luc Units for each sample to the Luc-nmiR-positive control.

Cellular Differentiation Assays. K562 cells were transduced with FUGW-miRNA-155 or FUGW-parental control (i.e., empty vector) lentivirus at a multiplicity of infection of 5. Each of these vectors contains a GFP cassette driven from a second promoter (31). Cells were cultured for 2 days and then checked for GFP expression, indicating lentiviral transduction. Cells then were washed with PBS and cultured incomplete growth media containing ingenol 3,20-dibenzoate (IDB, 1 μg/ml; Sigma) or hemin (50 μM; Sigma). On day 4, IDB-treated cells were assayed by monoclonal antibody staining and flow cytometry for CD41 (Becton Dickinson, Franklin Lake, N.J.) expression, indicating megakaryocytic differentiation (13-15). Hemin-treated cells were assayed similarly on day 6 for benzidine staining, indicating erythroid differentiation (33). Human PBSC CD34⁺ cells were transduced with miRNA-155 or control lentivirus and assayed by standard colony-forming unit (cfu) assays for myeloid and erythroid differentiation (34).

Additional Methods

Luciferase(luc)-3′ UTR Reporter Plasmids. The luc coding sequence and 3′ multiple-cloning-site (MCS) from the promoterless pSP-luc+NF fusion vector (E4471; Promega, Madison, Wis.) were subcloned into the NheI and XhoI sites of the pcDNA 3.1(+) expression vector (V79020; Invitrogen, Carlsbad, Calif.). The resulting plasmid (Luc-3′ UTR) construct contains a strong CMV promotor driving a luc expression cassette, followed by a 3′ MCS. (FIG. 6) The 3′ MSC contains the restriction sites XbaI-EcoRI-EcoRV-ClaI-XhoI. The 3′ UTR sequences from several hematopoietic differentiation-associated mRNAs were isolated by RT-PCR with primers containing restriction enzyme linkers. These 3′ UTR PCR fragments were cloned into the 3′ MCS of the Luc-3′ UTR reporter construct. The resulting chimeric mRNAs, containing luc and the 3′ UTR of the mRNA of interest, allowed for rapid functional analysis of miRNA translational control of mRNAs of interest (FIG. 6)

Primer sequences: The name of the mRNA is followed by the (size of the insert) in base pairs. L and R represent the forward (left) and reverse (right) primers used for PCR, each followed by the (restriction enzyme) used to clone the insert into the Luc-3′ UTR reporter construct. Within the sequences the restriction site is shown in capital letters. Each prime also contains a 6-bp extension to act as a GC clamp and as a spacer for restriction enzyme binding.

BCL-2 3′ UTR Primers (1,483 bp) L: (EcoRI) gcattgGAATTCagtcaacatgcctgccccaaacaaatatgc R: (XhoI) ccgatacCTCGAGgttttacatgtaattccatagacaggggt CD164 3′ UTR Primers (2,307 bp) L: (ClaI) gcattgATCGATacagacccattgaattaataaggactggtgattc R: (XhoI) cgatacCTCGAGgtcagtttggtacatgatacagattggttttgcag C/EBP-b 3′ UTR primers (5,96 bp) L: (EcoRI) gcattgGAATTCcgcggcccccgcgcgcgtccccctgccggc R: (XhoI) cgatacCTCGAGaaccattctcaaaaaaaagtttattaaaag CXCR4 3′ UTR primers (5,19 bp) L: (EcoRI) gcattgGAATTCcacagatgtaaaagacttttttttatacga R: (XhoI) cgatacCTCGAGaagtttaacatgtacttttattaacaactt GATA-2 3′ UTR primers (1,589 bp) L: (EcoRI) gcattgGAATTCggaacagatggacgtcgaggaccgggcact R: (XhoI) cgatacCTCGAGacaaaaagtattttattattcttaacagta GATA-3 3′ UTR primers (475 bp) L: (EcoRI) gcattgGAATTCagccctgctcgatgctcacagggcccccag R: (XhoI) cgatacCTCGAGaatgcatcaaacaactgtggccagtgaaag Hes-1 3′ UTR primers (295 bp) L: (EcoRI) gcattgGAATTCctccggactctaaacaggaacttgaatact R: (XhoI) cgatacCTCGAGctcaaataaacttccccaaaggaagatatt Hox A5 3′ UTR primers (284 bp) L: (EcoRI) gcattgGAATTCgtatctgagcgtttaaagtactgagcagta R: (XhoI) cgatacCTCGAGgttatagttacttcaagtaacacagcttgc Hox A9 3′ UTR primers (1,165 bp) L: (ClaI) gcattgATCGATtgccatttgggcttatttagaaaaaagggt R: (XhoI) cgatacCTCGAGagaaaagaatcaatatattttatttggcaa Hox A10 3′ UTR primers (1,298 bp) L: (EcoRI) gcattgGAATTCtgaatctccaggcgacgcggttttttcact R: (XhoI) cgatacCTCGAGgcttcattccacagcttttattctataaga Hox B5 3′ UTR primers (951 bp) L: (EcoRI) gcattgGAATTCgcccgcccagaggagcccagcggcccaaga R: (XhoI) cgatacCTCGAGtggaagtcaaataaatgtttcccccactcc Hox B7 3′ UTR primers (586 bp) L: (EcoRI) gcattgGAATTCgggatggagaaagggcagaggaag R: (XhoI) cgatacCTCGAGtccatcctttagatacacacagaatgtaaaaggg KLF2 3′ UTR primers (498 bp) L: (EcoRI) gcatgcGAATTCaaccgggccgggcacagc R: (XhoI) cgatgcCTCGAGtcttataaaaacgaaccaggtagccc LMO2 3′ UTR primers (778 bp) L: (EcoRI) gcattgGAATTCgcccgagtccccgggcatctttggggaggt R: (XhoI) cgatacCTCGAGcagtctgtcatttttattaagcctgcagag MEIS-1 3′ UTR primers (1,500 bp) L: (EcoRI) gcattgGAATTCccttcatctagttaaccaatcgcaaagcaa R: (XhoI) cgatacCTCGAGgacaaaaataatcttgtttttattttagat Myb 3′ UTR primers (1,157 bp) L: (EcoRI) gcattgGAATTCccagaaaagcattatggttttcagaacac R: (XhoI) cgatacCTCGAGtgctacaaggcagtaagtacaccgtc RUNX-1 3′ UTR primers (4,331 bp) L: (EcoRI) gcattgGAATTCggcgccaggcctggcccggctgggccccgc R: (ClaI) gcattgATCGATatggtgtatgtacttgtcaaactgtttatttgcc RUNX-3 3′ UTR primers (1,062 bp) L: (EcoRI) gcattgGAATTCccgccctggtggactcctcccgctggaggc R: (ClaI) gcattgATCGATactatttgctttcagagcacaaaacaggtt SOCS-2 3′ UTR primers (1,000 bp) L: (EcoRI) gcattgGAATTCatgtctcacatagagtatctccgaatgcag R: (XhoI) cgatacCTCGAGcagtagaagggagacaactgtttatgtcca WWP-2 3′ UTR primers (1,800 bp) L: (EcoRI) gcattgGAATTCccgaggccgcccctcccacgccccccagcg R: (XhoI) cgatacCTCGAGacagctgctgattgtttattgcacaagaaa

miRNA Knockout Luciferase(luc)-3′ UTR Reporter Plasmids. In addition, for certain of the luc-3′UTR reporter plasmids, the inventors produced variant constructs, in which specific miRNA-binding sites were deleted from the 3′ UTR (Luc-3′ UTR-DL constructs). Approximately 60-mer PCR primers, consisting of the 20-nucleotide (nt) sequence on either side of the miRNA-binding sites plus an intervening 20-bp spacer containing a PacI site, were generated and then used in full-plasmid PCR (QuikChange XL Kit 200516; Stratagene, La Jolla, Calif.). Briefly, these primers span the deletion site but replace the sequence to be deleted with a unique restriction enzyme site that allows for rapid screening of clones with the deletion. The entire mutant plasmid is then produced via PCR, lacking the miRNA binding site, as described in the manufacturer's protocol.

Primer sequences: The name of the primer consists of the mRNA 3′ UTR name and the predicted miRNA binding site deleted from the 3′ UTR sequence. Only the forward primer sequence is shown, because the reverse is the antiparallel sequence of the forward primer. The PacI spacer is shown in blue.

CXCR4 3′ UTR mir-92 deletion primers ttcctgttcttaagacgtgaacagtaTTAATTAAagctgtaaccaaagcc caaagtggta CXCR4 3′ UTR mir-181 deletion primers gactgtagaaaagggaactgacagtaTTAATTAAagctgtgtaaagctag aaatgatccc KLF2-82 3′ UTR mir-92 deletion primers CGAGTTTTGTTTTTCAAAATacagtaTTAATTAAagctgtATTTAAGTG GCATCTTCTCT

Cloning of the hsa-mir-155 Gene. The hsa-mir-155 gene was cloned from K562 cell genomic DNA, via PCR by using primers containing restriction enzyme linkers that would allow cloning into either the pcDNA3.1(+) expression vector (V79020; Invitrogen, Carlsbad, Calif.) or the FUGW lentiviral expression vector (1). The inventors used vectors containing strong Pol II promotors, since miRNA expression and processing by Drosha, Exportin V, and Dicer seem to be much more reliable using longer 5′-capped-mRNA sequences produced by Pol II, rather than shorter RNAs produced by Pol III promotors (2). The fragments produced by PCR contained the miRNA precursor (70-120 nt) flanked on both the 5′ and 3′ sides by 250 nt of genomic sequence, resulting in inserts of 570 to 620 nt.

Primer Sequences:

L: (EcoRI) cgatcgGAATTCaaatggactattttcctttcagattta cta R: (NheI) gctatgGCTAGCtaaataaccttactttcaaaacttagt tta

-   1. Yu X, Zhan X, D'Costa J, Tanavde V M, Ye Z, Peng T, Malehorn M T,     Yang X, Civin C I, Cheng L (2003) Mol Ther 7:827-838. -   2. Bartel D P (2004) Cell 116:281-297.

Example 2 Abstracts CD34+ Hematopoietic Stem-Progenitor Cell MicroRNA Expression and Function: The miR Circuit Diagram of Differentiation Control.

Since lin-4, the founding member of the class, was described; microRNAs (miRs) have become a recently realized class of epigenetic elements which modify translation of mRNA to protein, and which also may result in gene silencing through chromatin remodeling. First discovered in C. elegans, miRs have been identified in numerous other organisms including drosophila, rat, mouse, and humans. To date, they have been shown to control cellular metabolism, differentiation and development. Even more importantly aberrant expression of miRs and deletion of miRs are highly associated with the development of various cancers. To better understand the role of miRs in normal hematopoiesis the inventors have determined the microRNA expression profile of primary normal human PBSC and bone marrow CD34+ cells. The inventors have combined this data with the extensive mRNA expression data obtained from CD34+ HSPC, CD34+/CD38−ILin−HSC-enriched, and CD34+/CD38+/Lin+HPC-enriched populations in a previous study. (Cancer Research 644344) Combining these two datasets into one integrated database has allowed the inventors to intricately examine the global interaction of HSPC mRNAs and microRNAs, and to also predict which miRs are involved with differentiation of the hematopoietic system. These findings offer promising new targets for the study of stem cell differentiation and targets for genetic therapies of hematopoietic stem cells.

CD34+ HSPC MicroRNA Expression and Regulation of Hematopoiesis: A Bioinformatic Circuit Diagram of the Hematopoietic Differentiation Control.

MicroRNAs (miRs) are a recently realized class of epigenetic elements which block translation of mRNA to protein, and which also may result in gene silencing through chromatin remodeling. MicroRNAs have been shown to control cellular metabolism, differentiation and development in numerous organisms including drosophila, rat, mouse, and humans. Recently, miRs have been implicated in the control of hematopoiesis. Even more importantly, both aberrant expression and deletion are highly associated with the development of various cancers. To better understand the role of miRs in normal hematopoiesis, the inventors have determined the microRNA expression profile of primary normal human PBSC and bone marrow CD34+ hematopoietic stem-progenitor cells (HSPC). The inventors have combined this data with the extensive mRNA expression data obtained from CD34+ HSPC, CD34+/CD38−ILin−HSC-enriched, and CD34+/CD38+/Lin+HPC-enriched populations in a previous study. (Cancer Research 64:4344) Combining these two datasets into one integrated database has allowed the inventors to intricately examine the global interaction of HSPC mRNAs and microRNAs, and to also predict which miRs are involved with differentiation of the hematopoietic system through their control of expression of hematopoieticly important proteins. The inventors have confirmed that expression of a number of these hematopoieticly important proteins are in fact controlled by microRNAs. Based on the bioinformatic and protein expression studies, the inventors present a global model by which microRNAs control hematopoietic differentiation. These findings offer promising new targets for the study of stem cell differentiation and targets for genetic therapies of hematopoietic stem cells.

MicroRNA hsa-mir-155 Blocks Myeloid and Erythroid Differentiation of Human CD34+ HSPC.

In a previous study, the inventors determined all of the microRNAs expressed by human CD34+ hematopoietic stem progenitor cells from bone marrow and GM-CSF mobilized periferal blood. When the inventors combined microRNA expression with mRNA expression data from a previous study (Georgantas et al, Cancer Research 64:4434), the inventors were able to bioinformatically predict the actions of microRNAs within the hematopoietic system. MicroRNA hsa-mir-155 was highly expressed in CD34+ HSPC, and was immediately identified to be a possible generalized inhibitor of hematopoietic differentiation. MicroRNA-155 was predicted to interact with HSPC expressed mRNAs proteins previously shown to be highly involved myeloid and erythroid differentiation. K562 cells were transduced with hsa-mir-155 lentivirus, and were then differentiated with TPA to megakaryocytes or with hemin to erythrocytes. Compared to controls mir-155 reduced megakaryocyte differentiation by approximately 70%, and erythropoiesis by over 90%. Cell growth was not effected by mir-155, indicating this was a block in differentiation, and not simply a block in cell growth. Transduction of human PBSC CD34+ cells, followed by colony forming assay, revealed that mir-155 reduces both myeloid and erythroid colony formation by greater than 70%. The inventors are currently further testing the effect of mir-155 on PBSC in suspension cultures and transplant into NOG mice. These data strongly indicate that mir-155 acts in control of myeloid and erythroid differentiation.

MicroRNA hsa-mir-16 Contributes to Control of Myeloid Differentiation of Human CD34+ HSPC.

In a previous study, the inventors determined all of the microRNAs expressed by human CD34+ hematopoietic stem-progenitor cells from bone marrow and GM-CSF mobilized peripheral blood. When the inventors combined microRNA expression with mRNA expression data from a previous study (Georgantas et al, Cancer Research 64:4434), the inventors were able to bio-informaticly predict the actions of microRNAs within the hematopoietic system. MicroRNA hsa-mir-16 was highly expressed in CD34+ HSPC, and based on it predicted target mRNAs was identified as a possible regulator of myeloid differentiation. The inventors first confirmed that protein expression from these putative target mRNAs were in fact regulated by mir-16. The 3′UTR sequences from these mRNAs were cloned behind a luciferase reporter construct, which were then transfected into K562 cells, which highly express mir-16. In all cases protein expression was reduced.

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Example 3

TABLE 3 miRNA to mRNA mappings. Predicted mRNA targets (expressed in PBSC and BM) for each individual miRNA (noted above sub-tables) as identified by the Transcriptome Interaction Database. Included are the Ensemble Gene ID, the HUGO systematic gene symbol, the Unigene identifier, the normalized expression level of the mRNA [in relative fluorescence units (RFU)], and the Affymetrix call flags for each transcript (P, present/expressed). 92 Ensemble gene Gene PBSC, PBSC BM, BM ID symbol Unigene RFU flags RFU flags ENSG00000137845 ADAM10 Hs.172028 221.1 PP 315.55 PP ENSG00000138031 ADCY3 Hs.467898 208.6 PP 178.4 PP ENSG00000087274 ADD1 Hs.183706 410.2 PP 214.3 PP ENSG00000143401 ANP32E Hs.385913 169.2 PP 423.3 PP ENSG00000143761 ARF1 Hs.286221 1245.2 PP 798.4 PP ENSG00000163466 ARPC2 Hs.529303 1447.8 PP 1774.7 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000119861 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000171067 C11orf24 Hs.303025 127.9 PP 105.45 PA ENSG00000139746 C13orf10 Hs.131715 119.8 PP 178.7 PP ENSG00000152242 C18orf25 Hs.116486 129.7 PP 130.6 PA ENSG00000117616 C1orf63 Hs.259412 1202.1 PP 1000.85 PP ENSG00000132823 C20orf111 Hs.75798 346 PP 259.1 PP ENSG00000031003 C5orf5 Hs.483473 256.3 PP 316.85 PP ENSG00000132424 C6orf111 Hs.520287 674.8 PP 743.75 PP ENSG00000112308 C6orf62 Hs.519930 330.6 PP 509.45 PP ENSG00000067955 CBFB Hs.460988 719.1 PP 1032 PP ENSG00000112237 CCNC Hs.430646 273.3 PP 380.8 PP ENSG00000110848 CD69 Hs.208854 1631.5 PP 1082.1 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000172216 CEBPB Hs.517106 374.1 PP 391 PP ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PA ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000067048 DDX3Y Hs.99120 302.6 PP 309.6 PA ENSG00000132153 DHX30 Hs.517948 209.5 PP 193.5 PP ENSG00000082458 DLG3 Hs.522680 136.2 PP 89.45 PP ENSG00000128590 DNAJB9 Hs.6790 211.5 PP 433.55 PP ENSG00000167264 DUS2L Hs.534460 140.7 PP 111.5 PA ENSG00000143507 DUSP10 Hs.497822 328.9 PP 371.8 PP ENSG00000139318 DUSP6 Hs.298654 166.6 PP 316.85 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000147654 EBAG9 Hs.409368 293.7 PP 285.65 PP ENSG00000123908 EIF2C2 Hs.449415 150.2 PP 115.85 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000166147 FBN1 Hs.146447 195.2 PP 178.7 PP ENSG00000143756 FBXO28 Hs.64691 106.1 PP 70.5 PA ENSG00000151702 FLI1 Hs.504281 156.4 PP 248.05 PP ENSG00000168137 FLJ10707 Hs.288164 452.5 PP 256.1 PM ENSG00000159202 FLJ13855 Hs.514297 539 PP 525.1 PP ENSG00000109920 FNBP4 Hs.6834 501.2 PP 497.2 PP ENSG00000163430 FSTL1 Hs.269512 408.6 PP 227.95 PP ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000196700 GM632 Hs.551552 103.5 PP 145.05 PP ENSG00000175265 GM88 Hs.182982 627 PP 822.4 PP ENSG00000147533 GOLGA7 Hs.7953 669.8 PP 592.25 PP ENSG00000159592 GPBP1L1 Hs.238432 275.7 PP 300.05 PP ENSG00000128731 HERC2 Hs.434890 257.7 PP 239.3 PP ENSG00000163349 HIPK1 Hs.532363 347.7 PP 488.5 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000169045 HNRPH1 Hs.202166 1986.4 PP 2132.6 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000078399 HOXA9 Hs.127428 739.2 PP 674 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000144381 HSPD1 Hs.113684 2868.6 PP 5689.3 PP ENSG00000168556 ING2 Hs.107153 177 PP 151.85 PP ENSG00000186480 INSIG1 Hs.520819 196.9 PP 304.7 PP ENSG00000145703 IQGAP2 Hs.291030 537.8 PP 457.9 PP ENSG00000143164 IQWD1 Hs.435741 168.5 PP 156.4 PP ENSG00000150093 ITGB1 Hs.429052 865.6 PP 593.85 PP ENSG00000177606 JUN Hs.525704 1300.5 PP 2286.95 PP ENSG00000179889 KIAA0251 Hs.370781 386 PP 331 PM ENSG00000126775 KIAA0831 Hs.414809 254.4 PP 217.45 PP ENSG00000170759 KIF5B Hs.327736 346.6 PP 430.75 PP ENSG00000127528 KLF2 Hs.107740 609 PP 859.3 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000166783 LKAP Hs.173524 135 PP 182.75 PP ENSG00000152102 LOC130074 Hs.469941 508.5 PP 344.1 PP ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000121579 MAK3 Hs.269528 268.8 PP 307 PP ENSG00000012983 MAP4K5 Hs.130491 66 PP 116 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000165943 MOAP1 Hs.24719 527.1 PP 299.1 PP ENSG00000159256 MORC3 Hs.421150 108.8 PP 130.45 PP ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000137420 NOL7 Hs.549161 1095.5 PP 1222.05 PP ENSG00000141458 NPC1 Hs.464779 126.1 PP 135.8 PM ENSG00000106459 NRF1 Hs.298069 157.5 PP 126.8 PA ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000035681 NSMAF Hs.372000 517.1 PP 517.75 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000172939 OXSR1 Hs.475970 211 PP 186.15 PA ENSG00000172239 PAIP1 Hs.482038 127.8 PP 157 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000185619 PCGF3 Hs.144309 192.1 PP 237.55 PP ENSG00000102225 PCTK1 Hs.496068 135 PP 88.45 PA ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000132326 PER2 Hs.58756 162.6 PP 308.65 PP ENSG00000112511 PHF1 Hs.166204 903.7 PP 604.1 PP ENSG00000043143 PHF15 Hs.483419 234 PP 320.3 PP ENSG00000118482 PHF3 Hs.348921 260 PP 268.9 PP ENSG00000051382 PIK3CB Hs.239818 275.1 PP 280.95 PP ENSG00000154217 PITPNC1 Hs.549130 391.3 PP 316.6 PP ENSG00000112941 POLS Hs.481542 355.5 PP 367.35 PP ENSG00000127125 PPCS Hs.549196 120.7 PP 188.55 PP ENSG00000058272 PPP1R12A Hs.49582 154.9 PP 178.75 PP ENSG00000005249 PRKAR2B Hs.433068 200.7 PP 237.75 PP ENSG00000138430 PTD004 Hs.157351 848.2 PP 1052.6 PP ENSG00000171522 PTGER4 Hs.199248 531.8 PP 514.8 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000152061 RABGAP1L Hs.495391 229.4 PP 396.75 PP ENSG00000164754 RAD21 Hs.81848 281.3 PP 414.9 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000116473 RAP1A Hs.190334 217.2 PP 367.75 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000063978 RNF4 Hs.66394 115.8 PP 325.65 PP ENSG00000198838 RYR3 Hs.369250 116.8 PP 131.8 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000121892 SCC-112 Hs.331431 220.4 PP 258.2 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000184602 SNN Hs.459952 234.4 PP 239.3 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000196700 SOX18 Hs.8619 1264.6 PP 2674 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000135250 SRPK2 Hs.285197 106.2 PP 118.7 PM ENSG00000101972 STAG2 Hs.496710 392 PP 375.2 PP ENSG00000198648 STK39 Hs.276271 129.8 PP 111.35 PP ENSG00000173812 SUI1 Hs.150580 6046 PP 6098.85 PP ENSG00000165169 TCTE1L Hs.446392 323 PP 369.75 PP ENSG00000114126 TFDP2 Hs.379018 253.2 PP 196.3 PA ENSG00000177426 TGIF Hs.373550 116.7 PP 95.35 PM ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000198900 TOP1 Hs.472737 315.5 PP 468.35 PP ENSG00000165699 TSC1 Hs.370854 232.7 PP 242.3 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000169764 UGP2 Hs.516217 656.9 PP 560.95 PP ENSG00000164828 UNC84A Hs.438072 146.4 PP 111.15 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000143952 VPS54 Hs.48499 187.9 PP 151.5 PP ENSG00000198373 WWP2 Hs.408458 231 PP 185.05 PP ENSG00000100219 XBP1 Hs.437638 1126.5 PP 826.5 PP ENSG00000100811 YY1 Hs.388927 539.7 PP 740.2 PP ENSG00000170949 ZNF160 Hs.467236 1056.4 PP 1016.85 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP Ensemble Gene PBSC PBSC BM ID Gene Symbol Unigene RFU Flags BM RFU Flags 223 ENSG00000004455 AK2 Hs.470907 303.6 PP 498.6 PP ENSG00000117020 AKT3 Hs.498292 246.4 PP 259.35 PP ENSG00000170017 ALCAM Hs.150693 528.9 PP 695.45 PP ENSG00000101844 APG4A Hs.8763 139.4 PP 172.75 PA ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000126749 C2F Hs.504628 383.4 PP 460.7 PM ENSG00000168958 C2orf33 Hs.471528 235.3 PP 302.3 PP ENSG00000136925 C9orf97 Hs.494595 207.5 PP 180.4 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000142453 CARM1 Hs.371416 141.6 PP 105.7 PA ENSG00000067955 CBFB Hs.460988 719.1 PP 1032 PP ENSG00000108468 CBX1 Hs.77254 432 PP 415.85 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000172216 CEBPB Hs.517106 374.1 PP 391 PP ENSG00000153922 CHD1 Hs.519474 89.4 PP 202.95 PP ENSG00000072609 CHFR Hs.507336 247.4 PP 253.05 PP ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000160967 CUTL1 Hs.438974 333.3 PP 412.55 PP ENSG00000121966 CXCR4 Hs.421986 532.4 PP 1919.4 PP ENSG00000166347 CYB5 Hs.465413 191.8 PP 277.55 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000136986 DERL1 Hs.241576 223 PP 240.65 PA ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000186676 EEF1G Hs.144835 19027.3 PP 14878.45 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000004478 FKBP4 Hs.524183 490.7 PP 372.15 PM ENSG00000118689 FOXO3A Hs.220950 1368.3 PP 720.35 PP ENSG00000104064 GABPB2 Hs.546852 129.3 PP 183.75 PM ENSG00000116717 GADD45A Hs.80409 266 PP 245.7 PP ENSG00000141429 GALNT1 Hs.514806 220 PP 273.8 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000143321 HDGF Hs.506748 243.6 PP 858.8 PP ENSG00000013583 HEBP1 Hs.294133 387.7 PP 516.4 PP ENSG00000114315 HES1 Hs.250666 232.7 PP 169.8 PP ENSG00000152804 HHEX Hs.118651 328.9 PP 298.65 PP ENSG00000078140 HIP2 Hs.50308 60.5 PP 68.4 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000078399 HOXA9 Hs.127428 739.2 PP 674 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000133703 KRAS Hs.505033 355.8 PP 363.05 PP ENSG00000143815 LBR Hs.435166 1166 PP 1807.35 PP ENSG00000135363 LMO2 Hs.34560 1997.3 PP 1809.95 PP ENSG00000110031 LPXN Hs.125474 233.9 PP 209.7 PP ENSG00000171492 LRRC8D Hs.482087 543.3 PP 374.45 PP ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000121579 MAK3 Hs.269528 268.8 PP 307 PP ENSG00000047849 MAP4 Hs.517949 302.6 PP 276.5 PP ENSG00000180398 MCFD2 Hs.293689 289.4 PP 258.25 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000133026 MYH10 Hs.16355 375.1 PP 362.5 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000106459 NRF1 Hs.298069 157.5 PP 126.8 PA ENSG00000162231 NXF1 Hs.523739 543 PP 626 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000073921 PICALM Hs.163893 357.3 PP 315.6 PP ENSG00000104695 PPP2CB Hs.491440 197.6 PP 323.9 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000138430 PTD004 Hs.157351 848.2 PP 1052.6 PP ENSG00000171862 PTEN Hs.500466 353.7 PP 334.4 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000152061 RABGAP1L Hs.495391 229.4 PP 396.75 PP ENSG00000137040 RANBP6 Hs.167496 125.2 PP 140.05 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000145715 RASA1 Hs.553501 138.8 PP 103.6 PP ENSG00000197676 RBM16 Hs.227602 193.8 PP 274 PP ENSG00000147274 RBMX Hs.380118 1610.3 PP 1490.7 PP ENSG00000168214 RBPSUH Hs.479396 79.3 PP 100.35 PP ENSG00000117906 RCN2 Hs.79088 121.2 PP 121.5 PP ENSG00000157916 RER1 Hs.525527 262.6 PP 329.9 PP ENSG00000170633 RNF34 Hs.292804 424.6 PP 385.65 PP ENSG00000063978 RNF4 Hs.66394 115.8 PP 325.65 PP ENSG00000155878 SEC22L1 Hs.534212 662.9 PP 588.95 PP ENSG00000125354 6-Sep Hs.496666 335.7 PP 310.55 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000124523 SIRT5 Hs.282331 252.8 PP 171.5 PM ENSG00000138821 SLC39A8 Hs.288034 290.7 PP 275.05 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000172845 SP3 Hs.531587 137.8 PP 293.35 PP ENSG00000065526 SPEN Hs.270499 257.6 PP 262.7 PP ENSG00000115306 SPTBN1 Hs.503178 589.9 PP 344.65 PP ENSG00000149136 SSRP1 Hs.523680 329.8 PP 503.65 PP ENSG00000167323 STIM1 Hs.501735 143.2 PP 99.7 PP ENSG00000198648 STK39 Hs.276271 129.8 PP 111.35 PP ENSG00000117632 STMN1 Hs.209983 546.6 PP 663.4 PP ENSG00000135316 SYNCRIP Hs.472056 178 PP 315.75 PP ENSG00000136560 TANK Hs.516490 307.6 PP 221.95 PP ENSG00000113649 TCERG1 Hs.443465 196.5 PP 257.25 PP ENSG00000140262 TCF12 Hs.511504 179.4 PP 439.15 PP ENSG00000139644 TEGT Hs.35052 757.7 PP 1052.5 PP ENSG00000106829 TLE4 Hs.444213 309.2 PP 251.15 PP ENSG00000062716 TMEM49 /// Hs.444569 425.2 PP 441.3 PP MIRN21 ENSG00000173726 TOMM20 Hs.533192 656.5 PP 888.45 PP ENSG00000166598 TRA1 Hs.192374 151 PP 339.35 PP ENSG00000077721 UBE2A Hs.379466 299.1 PP 400.85 PP ENSG00000170832 USP32 Hs.132868 120.2 PP 118.35 PP ENSG00000146457 WTAP Hs.446091 400.8 PP 406.6 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000112200 ZNF451 Hs.485628 175.7 PP 176.15 PP 146 ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000115091 ACTR3 Hs.433512 353.8 PP 673.3 PP ENSG00000143761 ARF1 Hs.286221 1245.2 PP 798.4 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000175334 BANF1 Hs.433759 387.5 PP 385 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000111913 C6orf32 Hs.484915 83.8 PP 62.8 PP ENSG00000168564 CARF Hs.32922 72.4 PP 130 PP ENSG00000130940 CASZ1 Hs.553537 255.7 PP 200 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000153140 CETN3 Hs.528302 107.1 PP 199.4 PP ENSG00000122705 CLTA Hs.522114 1204.4 PP 990.1 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000121966 CXCR4 Hs.421986 532.4 PP 1919.4 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000134001 EIF2S1 Hs.151777 235.7 PP 299.55 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000066044 ELAVL1 Hs.184492 534.6 PP 734.45 PP ENSG00000120533 ENY2 Hs.492555 316.2 PP 375.85 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000157554 ERG Hs.473819 369.4 PP 298.05 PA ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000119402 FBXW2 Hs.494985 157.2 PP 167.5 PP ENSG00000181495 FLJ14054 Hs.13528 1289.4 PP 771.75 PP ENSG00000170345 FOS Hs.25647 1254.3 PP 1832.65 PP ENSG00000145907 G3BP Hs.3353 167.7 PP 319.25 PP ENSG00000104064 GABPB2 Hs.546852 129.3 PP 183.75 PM ENSG00000196700 GM632 Hs.551552 103.5 PP 145.05 PP ENSG00000185245 GP1BA Hs.1472 274.2 PP 361.5 PP ENSG00000163349 HIPK1 Hs.532363 347.7 PP 488.5 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000138668 HNRPD Hs.480073 785.7 PP 1067.15 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000184216 IRAK1 Hs.522819 529.4 PP 607.85 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000114030 KPNA1 Hs.161008 121.8 PP 91.95 PP ENSG00000166783 LKAP Hs.173524 135 PP 182.75 PP ENSG00000135387 M11S1 Hs.471818 464.9 PP 451.45 PP ENSG00000145495 6-Mar Hs.432862 597.3 PP 536.05 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000125952 MAX Hs.285354 1178.7 PP 1480.1 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000124733 MEA1 Hs.278362 452.7 PP 460.2 PP ENSG00000133606 MKRN1 Hs.490347 392.7 PP 350.15 PP ENSG00000175727 MONDOA Hs.437153 201.1 PP 301.1 PP ENSG00000112651 MRPL2 Hs.55041 198.6 PP 110.3 PA ENSG00000138386 NAB1 Hs.107474 187.9 PP 203.9 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000106459 NRF1 Hs.298069 157.5 PP 126.8 PA ENSG00000046651 OFD1 Hs.6483 1022.7 PP 692.15 PP ENSG00000115421 PAPOLG Hs.387471 153.2 PP 91.25 PP ENSG00000169564 PCBP1 Hs.2853 1587.4 PP 1289.35 PP ENSG00000107242 PIP5K1B Hs.534371 279 PP 312.25 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000112498 PPP1R11 Hs.82887 484.7 PP 463.3 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000142875 PRKACB Hs.487325 1018.3 PP 994.45 PP ENSG00000143106 PSMA5 Hs.485246 649.7 PP 1036.3 PP ENSG00000108344 PSMD3 Hs.12970 156.3 PP 101.1 PA ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000075785 RAB7 Hs.15738 99.2 PP 107.25 PP ENSG00000077092 RARB Hs.436538 111.5 PP 156.85 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000022840 RNF10 Hs.442798 327.5 PP 282.35 PM ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000063978 RNF4 Hs.66394 115.8 PP 325.65 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000052802 SC4MOL Hs.105269 146.9 PP 73.7 PA ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000107651 SEC23IP Hs.435004 115.6 PP 130.8 PA ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000124193 SFRS6 Hs.6891 2001.1 PP 2200.75 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000005022 SLC25A5 Hs.522767 4938.4 PP 5178.4 PP ENSG00000102038 SMARCA1 Hs.152292 101.1 PP 72.95 PA ENSG00000167088 SNRPD1 Hs.464734 518.7 PP 572.8 PP ENSG00000196700 SOX18 Hs.8619 1264.6 PP 2674 PP ENSG00000091640 SPAG7 Hs.90436 900.7 PP 517.9 PP ENSG00000152268 SPON1 Hs.445818 236.5 PP 121.5 PP ENSG00000180283 SUMO2 Hs.380973 1013.1 PP 783 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000135316 SYNCRIP Hs.472056 178 PP 315.75 PP ENSG00000140416 TPM1 Hs.133892 394.4 PP 661.4 PP ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000132670 VPS16 — 333 PP 243.95 PP ENSG00000143952 VPS54 Hs.48499 187.9 PP 151.5 PP ENSG00000158195 WASF2 Hs.469244 430.1 PP 367.5 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000186908 ZDHHC17 Hs.4014 123.5 PP 166.2 PP ENSG00000119725 ZNF410 Hs.270869 164.4 PP 257.1 PP 23a ENSG00000137822 76P Hs.549135 383.7 PP 259.6 PP ENSG00000075624 ACTB Hs.520640 11983.4 PP 11502.85 PP ENSG00000172493 AFF1 Hs.480190 480.6 PP 776.35 PP ENSG00000031003 C5orf5 Hs.483473 256.3 PP 316.85 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000100261 CBX6 Hs.511952 308 PP 255.7 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000135535 CD164 Hs.520313 2274.9 PP 2265.25 PP ENSG00000153774 CFDP1 Hs.461361 278.6 PP 295.4 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000111605 CPSF6 Hs.369606 402.6 PP 474.05 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000141141 DDX52 Hs.408452 124.3 PP 74.65 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000108406 DHX40 Hs.29403 233.3 PP 196.45 PP ENSG00000170522 ELOVL6 Hs.412939 96.5 PP 156.45 PP ENSG00000085832 EPS15 Hs.83722 144.1 PP 218.2 PP ENSG00000166147 FBN1 Hs.146447 195.2 PP 178.7 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000114861 FOXP1 Hs.431498 322.7 PP 410.3 PP ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PA ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000166503 HDGFRP3 Hs.513954 139.2 PP 156 PP ENSG00000164104 HMGB2 Hs.434953 855.9 PP 2145.45 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000138668 HNRPD Hs.480073 785.7 PP 1067.15 PP ENSG00000126945 HNRPH2 Hs.278857 189.2 PP 158.45 PP ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000125944 HNRPR Hs.373763 839.4 PP 980.1 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000120075 HOXB5 Hs.149548 322 PP 238.15 PP ENSG00000125347 IRF1 Hs.436061 467.7 PP 299.6 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000185896 LAMP1 Hs.494419 282.2 PP 383.55 PP ENSG00000143815 LBR Hs.435166 1166 PP 1807.35 PP ENSG00000145012 LPP Hs.444362 205.6 PP 238.9 PP ENSG00000120992 LYPLA1 Hs.435850 84.5 PP 420.05 PP ENSG00000110514 MADD Hs.82548 423 PP 267.9 PA ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000166974 MAPRE2 Hs.532824 857.4 PP 715.5 PP ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000164024 METAP1 Hs.480364 351.6 PP 422.25 PP ENSG00000187109 NAP1L1 Hs.524599 1185.6 PP 1531.65 PP ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000116044 NFE2L2 Hs.155396 181.2 PP 280.9 PP ENSG00000167770 OTUB1 Hs.473788 266 PP 155.35 PA ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000146278 PNRC1 Hs.75969 316.4 PP 242.95 PP ENSG00000112941 POLS Hs.481542 355.5 PP 367.35 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000137492 PRKRIR Hs.503315 281.4 PP 549.7 PP ENSG00000120899 PTK2B Hs.491322 333.1 PP 183.65 PP ENSG00000184007 PTP4A2 Hs.470477 110.5 PP 254.55 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000175582 RAB6A Hs.503222 371.4 PP 365.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000065150 RANBP5 Hs.513057 123.7 PP 118.85 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000103479 RBL2 Hs.513609 203.5 PP 188.25 PP ENSG00000134758 RNF138 Hs.302408 186.9 PP 511.9 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000079332 SARA1 Hs.499960 233.7 PP 442.85 PP ENSG00000116350 SFRS4 Hs.76122 217.8 PP 375.35 PP ENSG00000115875 SFRS7 Hs.309090 378.7 PP 743.5 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000116030 SUMO1 Hs.81424 240.9 PP 268.85 PP ENSG00000106052 TAX1BP1 Hs.34576 550 PP 486.2 PP ENSG00000100207 TCF20 Hs.475018 251.3 PP 281.15 PP ENSG00000083312 TNPO1 Hs.482497 483 PP 750.85 PP ENSG00000077097 TOP2B Hs.475733 592.4 PP 806 PP ENSG00000166598 TRA1 Hs.192374 151 PP 339.35 PP ENSG00000140391 TSPAN3 Hs.5062 516.6 PP 661.45 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000124486 USP9X Hs.77578 85.3 PP 115.1 PP ENSG00000078668 VDAC3 Hs.491597 3451.2 PP 4625.2 PP ENSG00000095787 WAC Hs.435610 379.2 PP 507.2 PP ENSG00000149658 YTHDF1 Hs.11747 710.9 PP 778.1 PP 23b ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000173020 ADRBK1 Hs.83636 706 PP 549.3 PM ENSG00000172493 AFF1 Hs.480190 480.6 PP 776.35 PP ENSG00000131503 ANKHD1 Hs.434219 168 PP 163.05 PP ENSG00000062725 APPBP2 Hs.84084 106.4 PP 116.15 PA ENSG00000165527 ARF6 Hs.525330 444.1 PP 636.85 PP ENSG00000134108 ARL10C Hs.250009 578.1 PP 591.95 PP ENSG00000128989 ARPP-19 Hs.512908 247.7 PP 139.7 PP ENSG00000111875 ASF1A Hs.292316 126.5 PP 114.6 PP ENSG00000171456 ASXL1 Hs.374043 275.6 PP 307.25 PP ENSG00000017260 ATP2C1 Hs.546361 229.1 PP 322.9 PP ENSG00000147416 ATP6V1B2 Hs.295917 179.5 PP 183.85 PP ENSG00000105829 BET1 Hs.489132 150.8 PP 121.8 PP ENSG00000104765 BNIP3L Hs.131226 239.7 PP 375.45 PP ENSG00000136261 BZW2 Hs.487635 1167.4 PP 1664.45 PP ENSG00000152242 C18orf25 Hs.116486 129.7 PP 130.6 PA ENSG00000031003 C5orf5 Hs.483473 256.3 PP 316.85 PP ENSG00000104267 CA2 Hs.155097 119.4 PP 82.3 PA ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000113328 CCNG1 Hs.79101 1025 PP 737.8 PP ENSG00000134480 CCNH Hs.292524 651.2 PP 697.05 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000153774 CFDP1 Hs.461361 278.6 PP 295.4 PP ENSG00000109572 CLCN3 Hs.481186 244.9 PP 248.15 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PA ENSG00000111605 CPSF6 Hs.369606 402.6 PP 474.05 PP ENSG00000101266 CSNK2A1 Hs.446484 170.4 PP 261.4 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000171793 CTPS Hs.473087 206.2 PP 242.75 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000165659 DACH1 Hs.129452 95.1 PP 144.8 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000141141 DDX52 Hs.408452 124.3 PP 74.65 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000152128 DKFZP566N034 Hs.369471 538.7 PP 502.55 PP ENSG00000198121 EDG2 Hs.126667 243.1 PP 147 PA ENSG00000124802 EEF1E1 Hs.88977 196.2 PP 308 PA ENSG00000171570 EGLN2 Hs.515417 259 PP 194.45 PM ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000107581 EIF3S10 Hs.523299 522.9 PP 586.55 PP ENSG00000156976 EIF4A2 Hs.478553 3569 PP 6526.55 PP ENSG00000131503 EIF4EBP3 /// — 285.5 PP 200 PP MASK-BP3 ENSG00000109381 ELF2 Hs.260903 150.8 PP 152.4 PP ENSG00000102034 ELF4 Hs.271940 309.2 PP 202.7 PP ENSG00000012660 ELOVL5 Hs.520189 681.6 PP 667.3 PP ENSG00000170522 ELOVL6 Hs.412939 96.5 PP 156.45 PP ENSG00000085832 EPS15 Hs.83722 144.1 PP 218.2 PP ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000166147 FBN1 Hs.146447 195.2 PP 178.7 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000181495 FLJ14054 Hs.13528 1289.4 PP 771.75 PP ENSG00000136122 FLJ22624 Hs.209715 121.6 PP 115.85 PP ENSG00000125740 FOSB Hs.75678 1751.3 PP 3599.55 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000146729 GBAS Hs.437367 186.8 PP 145.8 PP ENSG00000115419 GLS Hs.116448 217.6 PP 242.2 PP ENSG00000166503 HDGFRP3 Hs.513954 139.2 PP 156 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000100281 HMG2L1 Hs.197086 215.2 PP 87.75 PM ENSG00000164104 HMGB2 Hs.434953 855.9 PP 2145.45 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000092199 HNRPC Hs.449114 926.9 PP 1161.55 PP ENSG00000138668 HNRPD Hs.480073 785.7 PP 1067.15 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000165119 HNRPK Hs.449171 761 PP 1269.35 PP ENSG00000125944 HNRPR Hs.373763 839.4 PP 980.1 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000120075 HOXB5 Hs.149548 322 PP 238.15 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000144381 HSPD1 Hs.113684 2868.6 PP 5689.3 PP ENSG00000136478 HT008 Hs.175414 443.2 PP 336.2 PP ENSG00000086758 HUWE1 Hs.136905 535.9 PP 503.6 PP ENSG00000068383 INPP5A Hs.523360 302.3 PP 279.95 PP ENSG00000125347 IRF1 Hs.436061 467.7 PP 299.6 PP ENSG00000171988 JMJD1C Hs.413416 107 PP 198.85 PP ENSG00000126814 KIAA1393 Hs.380159 1228.6 PP 1731.35 PP ENSG00000156232 KIAA1971 /// Hs.377360 75.3 PP 71.35 PP LOC339005 /// LOC440253 ENSG00000165516 KLHDC2 Hs.509264 709.9 PP 490.3 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000108424 KPNB1 Hs.532793 415.1 PP 709.85 PP ENSG00000108424 KPNB1 Hs.532793 160.1 PP 294.95 PP ENSG00000185896 LAMP1 Hs.494419 282.2 PP 383.55 PP ENSG00000197017 LAT1-3TM /// Hs.444600 269.6 PP 389.55 PP BOLA2 /// LOC595101 ENSG00000143815 LBR Hs.435166 1166 PP 1807.35 PP ENSG00000157978 LDLRAP1 Hs.184482 223.5 PP 298.4 PP ENSG00000113368 LMNB1 Hs.89497 75.4 PP 143.6 PA ENSG00000123684 LPGAT1 Hs.497674 106 PP 114.3 PP ENSG00000145012 LPP Hs.444362 205.6 PP 238.9 PP ENSG00000120992 LYPLA1 Hs.435850 84.5 PP 420.05 PP ENSG00000003056 M6PR Hs.134084 566.2 PP 575.55 PP ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000110514 MADD Hs.82548 423 PP 267.9 PA ENSG00000121579 MAK3 Hs.269528 268.8 PP 307 PP ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000197442 MAP3K5 Hs.186486 227.6 PP 272.25 PP ENSG00000055208 MAP3K7IP2 Hs.269775 219.1 PP 142.8 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000166974 MAPRE2 Hs.532824 857.4 PP 715.5 PP ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000180398 MCFD2 Hs.293689 289.4 PP 258.25 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000143995 MEIS1 Hs.526754 452.1 PP 262.65 PP ENSG00000164024 METAP1 Hs.480364 351.6 PP 422.25 PP ENSG00000198408 MGEA5 Hs.500842 363.7 PP 363.05 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000187109 NAP1L1 Hs.524599 1185.6 PP 1531.65 PP ENSG00000198646 NCOA6 Hs.368971 334.7 PP 445.5 PP ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000116044 NFE2L2 Hs.155396 181.2 PP 280.9 PP ENSG00000181163 NPM1 Hs.519452 8905.6 PP 11897.7 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000091039 OSBPL8 Hs.430849 212 PP 251.65 PP ENSG00000167770 OTUB1 Hs.473788 266 PP 155.35 PA ENSG00000172939 OXSR1 Hs.475970 211 PP 186.15 PA ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000150593 PDCD4 Hs.232543 174.3 PP 122.55 PP ENSG00000143870 PDIA6 Hs.212102 357.6 PP 852.3 PP ENSG00000073921 PICALM Hs.163893 357.3 PP 315.6 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000118495 PLAGL1 Hs.444975 187.1 PP 357.8 PP ENSG00000100941 PNN Hs.409965 839.5 PP 617.3 PP ENSG00000146278 PNRC1 Hs.75969 316.4 PP 242.95 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000058272 PPP1R12A Hs.49582 154.9 PP 178.75 PP ENSG00000154001 PPP2R5E Hs.334868 135.1 PP 191.45 PP ENSG00000116731 PRDM2 Hs.371823 329.6 PP 175.6 PP ENSG00000166501 PRKCB1 Hs.460355 742.5 PP 535.05 PP ENSG00000137492 PRKRIR Hs.503315 281.4 PP 549.7 PP ENSG00000147224 PRPS1 Hs.56 508.2 PP 485.95 PP ENSG00000171522 PTGER4 Hs.199248 531.8 PP 514.8 PP ENSG00000184007 PTP4A2 Hs.470477 110.5 PP 254.55 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000055917 PUM2 Hs.467824 238.6 PP 313.25 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000048991 R3HDM Hs.412462 217.6 PP 376.75 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000111737 RAB35 Hs.524788 394.6 PP 431.2 PP ENSG00000152942 RAD17 Hs.16184 57.2 PP 60 PM ENSG00000164754 RAD21 Hs.81848 281.3 PP 414.9 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000065150 RANBP5 Hs.513057 123.7 PP 118.85 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000116473 RAP1A Hs.190334 217.2 PP 367.75 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000119707 RBM25 Hs.531106 231.5 PP 319.9 PP ENSG00000049449 RCN1 Hs.97887 294.1 PP 264.85 PP ENSG00000176624 RKHD2 Hs.465144 210.8 PP 216 PP ENSG00000124782 RREB1 Hs.298248 339.9 PP 324.15 PP ENSG00000137815 RTF1 Hs.511096 194.3 PP 256.85 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000160633 SAFB Hs.23978 376.8 PP 261.35 PP ENSG00000130254 SAFB2 Hs.546330 245.2 PP 213.5 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000155878 SEC22L1 Hs.534212 662.9 PP 588.95 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000116350 SFRS4 Hs.76122 217.8 PP 375.35 PP ENSG00000115875 SFRS7 Hs.309090 378.7 PP 743.5 PP ENSG00000198730 SH2BP1 Hs.173288 215.7 PP 203.65 PP ENSG00000162105 SHANK2 Hs.268726 137.1 PP 128.55 PP ENSG00000004864 SLC25A13 Hs.489190 106.7 PP 139.8 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000080493 SLC4A4 Hs.5462 124.5 PP 268.4 PP ENSG00000072501 SMC1L1 Hs.211602 137.5 PP 329.1 PP ENSG00000102172 SMS Hs.529887 287.8 PP 275.25 PP ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000065526 SPEN Hs.270499 257.6 PP 262.7 PP ENSG00000147475 SPFH2 Hs.125849 125.1 PP 180.9 PP ENSG00000173757 STAT5B Hs.132864 463.6 PP 373 PP ENSG00000168952 STXBP6 Hs.508958 152.6 PP 218.55 PP ENSG00000173812 SUI1 Hs.150580 6046 PP 6098.85 PP ENSG00000116030 SUMO1 Hs.81424 240.9 PP 268.85 PP ENSG00000106052 TAX1BP1 Hs.34576 550 PP 486.2 PP ENSG00000114126 TFDP2 Hs.379018 253.2 PP 196.3 PA ENSG00000177426 TGIF Hs.373550 116.7 PP 95.35 PM ENSG00000198586 TLK1 Hs.470586 150.2 PP 117.65 PP ENSG00000120802 TMPO Hs.11355 206.3 PP 161.7 PP ENSG00000083312 TNPO1 Hs.482497 483 PP 750.85 PP ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000198900 TOP1 Hs.472737 315.5 PP 468.35 PP ENSG00000077097 TOP2B Hs.475733 592.4 PP 806 PP ENSG00000166598 TRA1 Hs.192374 151 PP 339.35 PP ENSG00000173334 TRIB1 Hs.444947 238.3 PP 300.85 PP ENSG00000140391 TSPAN3 Hs.5062 516.6 PP 661.45 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000188021 UBQLN2 Hs.522668 112.4 PP 145.55 PP ENSG00000169021 UQCRFS1 Hs.170107 1584.8 PP 1518.7 PP ENSG00000124486 USP9X Hs.77578 85.3 PP 115.1 PP ENSG00000101558 VAPA Hs.165195 1051.8 PP 1198.45 PP ENSG00000155959 VBP1 Hs.436803 330 PP 595.4 PP ENSG00000105053 VRK3 Hs.443330 276.1 PP 148 PA ENSG00000095787 WAC Hs.435610 379.2 PP 507.2 PP ENSG00000109046 WSB1 Hs.446017 679.3 PP 880.75 PP ENSG00000146457 WTAP Hs.446091 400.8 PP 406.6 PP ENSG00000149658 YTHDF1 Hs.11747 710.9 PP 778.1 PP ENSG00000100811 YY1 Hs.388927 539.7 PP 740.2 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP ENSG00000185650 ZFP36L1 Hs.85155 94.5 PP 140.7 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000121848 ZNF364 Hs.523550 205.2 PP 286.9 PP ENSG00000005955 ZNF403 Hs.514116 382 PP 264.25 PP ENSG00000036549 ZZZ3 Hs.480506 125 PP 189.7 PP 26a ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000125257 ABCC4 Hs.508423 301.5 PP 348.15 PP ENSG00000101126 ADNP Hs.293736 552.6 PP 494.1 PP ENSG00000173020 ADRBK1 Hs.83636 706 PP 549.3 PM ENSG00000172493 AFF1 Hs.480190 480.6 PP 776.35 PP ENSG00000155189 AGPAT5 Hs.490899 207.1 PP 241.35 PP ENSG00000151320 AKAP6 Hs.509083 137.8 PP 117.05 PP ENSG00000143761 ARF1 Hs.286221 1245.2 PP 798.4 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000188042 ARL7 Hs.111554 240.7 PP 203.4 PP ENSG00000163466 ARPC2 Hs.529303 1447.8 PP 1774.7 PP ENSG00000128989 ARPP-19 Hs.512908 247.7 PP 139.7 PP ENSG00000171456 ASXL1 Hs.374043 275.6 PP 307.25 PP ENSG00000149311 ATM Hs.435561 221.9 PP 205.5 PP ENSG00000017260 ATP2C1 Hs.546361 229.1 PP 322.9 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000134107 BHLHB2 Hs.171825 482.8 PP 341.5 PP ENSG00000133639 BTG1 Hs.255935 955.9 PP 1057.95 PP ENSG00000134153 C15orf24 Hs.160565 612.5 PP 706.2 PP ENSG00000152242 C18orf25 Hs.116486 129.7 PP 130.6 PA ENSG00000101084 C20orf24 Hs.184062 878.9 PP 1348.2 PP ENSG00000114405 C3orf14 Hs.47166 131.5 PP 86.85 PA ENSG00000168476 C8orf20 Hs.289063 470.1 PP 364.3 PA ENSG00000135837 CAP350 Hs.413045 177.4 PP 220.9 PP ENSG00000116489 CAPZA1 Hs.514934 766.7 PP 1165.8 PA ENSG00000077549 CAPZB Hs.432760 282.7 PP 199.2 PP ENSG00000142453 CARM1 Hs.371416 141.6 PP 105.7 PA ENSG00000067955 CBFB Hs.460988 719.1 PP 1032 PP ENSG00000118971 CCND2 Hs.376071 1114.1 PP 1244.6 PP ENSG00000135535 CD164 Hs.520313 2274.9 PP 2265.25 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000111328 CDK2AP1 Hs.433201 1539.3 PP 1576.75 PP ENSG00000072609 CHFR Hs.507336 247.4 PP 253.05 PP ENSG00000110172 CHORDC1 Hs.22857 84.8 PP 156.6 PP ENSG00000131873 CHSY1 Hs.110488 404.5 PP 490.95 PP ENSG00000141367 CLTC Hs.491351 1169 PP 1399.6 PP ENSG00000162368 CMPK Hs.11463 333.8 PP 336.55 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000178741 COX5A Hs.401903 808.6 PP 1092.9 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000196730 DAPK1 Hs.380277 448.2 PP 549.6 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000067048 DDX3Y Hs.99120 302.6 PP 309.6 PA ENSG00000108654 DDX5 Hs.279806 3052 PP 3508.95 PP ENSG00000155792 DEPDC6 Hs.303788 461.4 PP 409.4 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000100697 DICER1 Hs.87889 176.8 PP 186.3 PP ENSG00000151208 DLG5 Hs.500245 73.1 PP 90.5 PP ENSG00000092964 DPYSL2 Hs.173381 505.1 PP 495.1 PP ENSG00000157540 DYRK1A Hs.368240 367.8 PP 751.2 PP ENSG00000110047 EHD1 Hs.523774 293.2 PP 330.3 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000119979 FAM45B /// Hs.434241 554.8 PP 690.2 PP FAM45A ENSG00000153310 FAM49B Hs.492869 311.6 PP 329.6 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000143756 FBXO28 Hs.64691 106.1 PP 70.5 PA ENSG00000037637 FBXO42 Hs.522384 136.1 PP 120.85 PM ENSG00000111011 FLJ11021 Hs.432996 202 PP 392.6 PP ENSG00000136048 FLJ11259 Hs.525634 351.2 PP 243.8 PP ENSG00000175606 FLJ20533 Hs.106650 420.6 PP 454.55 PP ENSG00000114861 FOXP1 Hs.431498 322.7 PP 410.3 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000103342 GSPT1 Hs.528780 356.7 PP 369.6 PP ENSG00000103342 GSPT1 Hs.528780 275.4 PP 515.9 PP ENSG00000110768 GTF2H1 Hs.523510 167.7 PP 191.7 PP ENSG00000115207 GTF3C2 Hs.75782 405.3 PP 405 PA ENSG00000164032 H2AFZ Hs.119192 1477 PP 3477.65 PP ENSG00000114315 HES1 Hs.250666 232.7 PP 169.8 PP ENSG00000163349 HIPK1 Hs.532363 347.7 PP 488.5 PP ENSG00000118418 HMGN3 Hs.77558 1438.8 PP 1894.65 PP ENSG00000177733 HNRPA0 Hs.96996 655 PP 723.4 PP ENSG00000105323 HNRPUL1 Hs.155218 406.9 PP 401.15 PP ENSG00000106004 HOXA5 Hs.37034 507.2 PP 499.3 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000086758 HUWE1 Hs.136905 535.9 PP 503.6 PP ENSG00000071243 ING3 Hs.489811 255.5 PP 407 PP ENSG00000143127 ITGA10 Hs.158237 145 PP 142.3 PM ENSG00000008083 JARID2 Hs.269059 1015 PP 894 PP ENSG00000164151 KIAA0947 Hs.449296 282.9 PP 275.45 PP ENSG00000155090 KLF10 Hs.435001 348.9 PP 357.65 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000107929 LARP5 Hs.498455 274.8 PP 203.9 PP ENSG00000145012 LPP Hs.444362 205.6 PP 238.9 PP ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000111885 MAN1A1 Hs.102788 309.1 PP 151 PP ENSG00000166963 MAP1A Hs.194301 433.9 PP 321.4 PM ENSG00000055208 MAP3K7IP2 Hs.269775 219.1 PP 142.8 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000166986 MARS Hs.355867 460.7 PP 614.95 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000133858 MGC23401 Hs.527874 291 PP 309.55 PP ENSG00000108788 MLX Hs.383019 219 PP 195.3 PP ENSG00000114978 MOBK1B Hs.196437 596.3 PP 556 PP ENSG00000123562 MORF4L2 Hs.326387 2189.8 PP 2626.1 PP ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000128654 MTX2 Hs.470728 121.8 PP 135.85 PP ENSG00000138386 NAB1 Hs.107474 187.9 PP 203.9 PP ENSG00000189043 NDUFA4 Hs.50098 1613.7 PP 1432.5 PP ENSG00000050344 NFE2L3 Hs.404741 94.5 PP 84.4 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000137497 NUMA1 Hs.523873 486.3 PP 295.45 PA ENSG00000124789 NUP153 Hs.121088 216.4 PP 291.8 PP ENSG00000065154 OAT Hs.523332 304 PP 486.9 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000117859 OSBPL9 Hs.21938 534.9 PP 419.5 PP ENSG00000100266 PACSIN2 Hs.162877 717.7 PP 302.25 PP ENSG00000142864 PAI-RBP1 Hs.530412 337.8 PP 662.45 PP ENSG00000180370 PAK2 Hs.518530 147.3 PP 198.15 PP ENSG00000105835 PBEF1 Hs.489615 96.8 PP 138.65 PP ENSG00000114054 PCCB Hs.63788 270.6 PP 392.75 PP ENSG00000114209 PDCD10 Hs.478150 463.6 PP 560.4 PP ENSG00000184588 PDE4B Hs.198072 234.1 PP 349.5 PP ENSG00000164040 PGRMC2 Hs.507910 89.1 PP 87.85 PM ENSG00000118482 PHF3 Hs.348921 260 PP 268.9 PP ENSG00000145675 PIK3R1 Hs.132225 249.1 PP 181 PP ENSG00000137193 PIM1 Hs.81170 1021.7 PP 801.85 PP ENSG00000154217 PITPNC1 Hs.549130 391.3 PP 316.6 PP ENSG00000181191 PJA1 Hs.522679 316.3 PP 332.1 PP ENSG00000152952 PLOD2 Hs.477866 92.1 PP 128.6 PP ENSG00000004399 PLXND1 Hs.301685 578.6 PP 512.35 PP ENSG00000146278 PNRC1 Hs.75969 316.4 PP 242.95 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000138814 PPP3CA Hs.435512 122.5 PP 205 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000154845 PPP4R1 Hs.464595 472.6 PP 378.85 PP ENSG00000131238 PPT1 Hs.3873 767.9 PP 861.2 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000171862 PTEN Hs.500466 353.7 PP 334.4 PP ENSG00000110958 PTGES3 Hs.50425 1018.1 PP 1526.7 PP ENSG00000112245 PTP4A1 Hs.227777 439.5 PP 431.2 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000017797 RALBP1 Hs.528993 379 PP 244.05 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000116473 RAP1A Hs.190334 217.2 PP 367.75 PP ENSG00000139687 RB1 Hs.408528 152.7 PP 153.35 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000136144 RCBTB1 Hs.508021 121.9 PP 194.4 PP ENSG00000049449 RCN1 Hs.97887 294.1 PP 264.85 PP ENSG00000089902 RCOR1 Hs.510521 118.3 PP 144.05 PP ENSG00000176624 RKHD2 Hs.465144 210.8 PP 216 PP ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000134758 RNF138 Hs.302408 186.9 PP 511.9 PP ENSG00000127870 RNF6 Hs.136885 74.1 PP 122.9 PP ENSG00000131051 RNPC2 Hs.282901 1756.3 PP 1736.7 PP ENSG00000137815 RTF1 Hs.511096 194.3 PP 256.85 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000163785 RYK Hs.245869 232.7 PP 184.9 PP ENSG00000092421 SEMA6A Hs.156967 140 PP 182.2 PP ENSG00000120742 SERP1 Hs.518326 285.7 PP 343.4 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000116350 SFRS4 Hs.76122 217.8 PP 375.35 PP ENSG00000122912 SLC25A16 Hs.180408 693.5 PP 585.25 PP ENSG00000178537 SLC25A20 Hs.13845 513.4 PP 284.75 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000080493 SLC4A4 Hs.5462 124.5 PP 268.4 PP ENSG00000175387 SMAD2 Hs.12253 243.4 PP 321.4 PP ENSG00000184602 SNN Hs.459952 234.4 PP 239.3 PP ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000089006 SNX5 Hs.316890 327.9 PP 403.25 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000095480 SPFH1 Hs.150087 646.4 PP 689.15 PP ENSG00000115306 SPTBN1 Hs.503178 589.9 PP 344.65 PP ENSG00000153037 SRP19 Hs.483090 290.8 PP 365.35 PP ENSG00000096063 SRPK1 Hs.443861 231.6 PP 200.5 PP ENSG00000198648 STK39 Hs.276271 129.8 PP 111.35 PP ENSG00000117632 STMN1 Hs.209983 546.6 PP 663.4 PP ENSG00000165283 STOML2 Hs.3439 880.1 PP 583.05 PP ENSG00000140262 TCF12 Hs.511504 179.4 PP 439.15 PP ENSG00000123066 THRAP2 Hs.159799 142.1 PP 396.2 PP ENSG00000100926 TM9SF1 Hs.91586 214.5 PP 148.05 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000198900 TOP1 Hs.472737 315.5 PP 468.35 PP ENSG00000165699 TSC1 Hs.370854 232.7 PP 242.3 PP ENSG00000163084 TSN Hs.75066 130.8 PP 178.35 PP ENSG00000077721 UBE2A Hs.379466 299.1 PP 400.85 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000185651 UBE2L3 Hs.108104 775.4 PP 605.6 PP ENSG00000124208 UBE2V1 /// Kua- Hs.420529 504.3 PP 320.6 PP UEV ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000130939 UBE4B Hs.386404 291.8 PP 387.95 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000115464 USP34 Hs.468663 1075.5 PP 1012.75 PP ENSG00000090686 USP48 Hs.467524 366.1 PP 393.65 PP ENSG00000117533 VAMP4 Hs.6651 271.8 PP 299.3 PP ENSG00000136485 WDR68 Hs.410596 150.9 PP 192.1 PP ENSG00000108953 YWHAE Hs.513851 328.6 PP 424.95 PP ENSG00000108953 YWHAE Hs.513851 2306.8 PP 4150.1 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP ENSG00000023041 ZDHHC6 Hs.196990 289.3 PP 293.9 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 26b ENSG00000115091 ACTR3 Hs.433512 353.8 PP 673.3 PP ENSG00000101126 ADNP Hs.293736 552.6 PP 494.1 PP ENSG00000143761 ARF1 Hs.286221 1245.2 PP 798.4 PP ENSG00000163466 ARPC2 Hs.529303 1447.8 PP 1774.7 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000134107 BHLHB2 Hs.171825 482.8 PP 341.5 PP ENSG00000134153 C15orf24 Hs.160565 612.5 PP 706.2 PP ENSG00000114405 C3orf14 Hs.47166 131.5 PP 86.85 PA ENSG00000077549 CAPZB Hs.432760 282.7 PP 199.2 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000072609 CHFR Hs.507336 247.4 PP 253.05 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PP ENSG00000108654 DDX5 Hs.279806 3052 PP 3508.95 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000156976 EIF4A2 Hs.478553 3569 PP 6526.55 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000120699 EXOSC8 Hs.294041 196.9 PP 283.25 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000114861 FOXP1 Hs.431498 322.7 PP 410.3 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000103342 GSPT1 Hs.528780 356.7 PP 369.6 PA ENSG00000164032 H2AFZ Hs.119192 1477 PP 3477.65 PP ENSG00000114315 HES1 Hs.250666 232.7 PP 169.8 PP ENSG00000029993 HMGB3 Hs.19114 309 PP 460.6 PP ENSG00000177733 HNRPA0 Hs.96996 655 PP 723.4 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000106004 HOXA5 Hs.37034 507.2 PP 499.3 PP ENSG00000067829 IDH3G Hs.410197 249.2 PP 156.95 PA ENSG00000002834 LASP1 Hs.334851 786.5 PP 659.05 PP ENSG00000145012 LPP Hs.444362 205.6 PP 238.9 PP ENSG00000135387 M11S1 Hs.471818 464.9 PP 451.45 PP ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000111885 MAN1A1 Hs.102788 309.1 PP 151 PP ENSG00000108788 MLX Hs.383019 219 PP 195.3 PP ENSG00000123562 MORF4L2 Hs.326387 2189.8 PP 2626.1 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000137497 NUMA1 Hs.523873 486.3 PP 295.45 PA ENSG00000100266 PACSIN2 Hs.162877 717.7 PP 302.25 PP ENSG00000180370 PAK2 Hs.518530 147.3 PP 198.15 PP ENSG00000105835 PBEF1 Hs.489615 96.8 PP 138.65 PP ENSG00000118482 PHF3 Hs.348921 260 PP 268.9 PP ENSG00000166037 PIG8 Hs.101014 356.2 PP 374.1 PP ENSG00000051382 PIK3CB Hs.239818 275.1 PP 280.95 PP ENSG00000137193 PIM1 Hs.81170 1021.7 PP 801.85 PP ENSG00000181191 PJA1 Hs.522679 316.3 PP 332.1 PP ENSG00000004399 PLXND1 Hs.301685 578.6 PP 512.35 PP ENSG00000146278 PNRC1 Hs.75969 316.4 PP 242.95 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000131238 PPT1 Hs.3873 767.9 PP 861.2 PP ENSG00000110958 PTGES3 Hs.50425 1018.1 PP 1526.7 PP ENSG00000112245 PTP4A1 Hs.227777 439.5 PP 431.2 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000017797 RALBP1 Hs.528993 379 PP 244.05 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000139687 RB1 Hs.408528 152.7 PP 153.35 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000171700 RGS19 Hs.422336 164.1 PP 279.7 PP ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000168758 SEMA4C Hs.516220 186.7 PP 157.95 PP ENSG00000092421 SEMA6A Hs.156967 140 PP 182.2 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000116350 SFRS4 Hs.76122 217.8 PP 375.35 PP ENSG00000122912 SLC25A16 Hs.180408 693.5 PP 585.25 PP ENSG00000178537 SLC25A20 Hs.13845 513.4 PP 284.75 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000089006 SNX5 Hs.316890 327.9 PP 403.25 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000095480 SPFH1 Hs.150087 646.4 PP 689.15 PP ENSG00000115306 SPTBN1 Hs.503178 589.9 PP 344.65 PP ENSG00000153037 SRP19 Hs.483090 290.8 PP 365.35 PP ENSG00000096063 SRPK1 Hs.443861 231.6 PP 200.5 PP ENSG00000124783 SSR1 Hs.114033 600.7 PP 686.65 PP ENSG00000165283 STOML2 Hs.3439 880.1 PP 583.05 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000091164 TXNL1 Hs.114412 1326.6 PP 1354.5 PP ENSG00000077721 UBE2A Hs.379466 299.1 PP 400.85 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000130939 UBE4B Hs.386404 291.8 PP 387.95 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000010244 ZNF207 Hs.500775 918.9 PP 742.3 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 155 ENSG00000108599 AKAP10 Hs.462457 164.1 PP 228.75 PP ENSG00000170017 ALCAM Hs.150693 528.9 PP 695.45 PP ENSG00000123505 AMD1 Hs.159118 648.3 PP 1011.85 PP ENSG00000144848 APG3L Hs.477126 235.6 PP 245.05 PP ENSG00000111875 ASF1A Hs.292316 126.5 PP 114.6 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000171791 BCL2 Hs.150749 151.5 PP 134.45 PP ENSG00000141452 C18orf8 Hs.529006 232.8 PP 242.05 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000108349 CASC3 Hs.350229 286.5 PP 317.4 PP ENSG00000196776 CD47 Hs.446414 407.8 PP 514.4 PP ENSG00000196776 CD47 Hs.446414 1026.3 PP 1175.5 PP ENSG00000172216 CEBPB Hs.517106 374.1 PP 391 PP ENSG00000177200 CHD9 Hs.530936 222.6 PP 263 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000141030 COPS3 Hs.6076 331 PP 374.8 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000160967 CUTL1 Hs.438974 333.3 PP 412.55 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000108406 DHX40 Hs.29403 233.3 PP 196.45 PP ENSG00000113391 DKFZP564D172 Hs.127788 94 PP 123.9 PP ENSG00000132002 DNAJB1 Hs.515210 453.4 PP 2770.05 PA ENSG00000128590 DNAJB9 Hs.6790 211.5 PP 433.55 PP ENSG00000110047 EHD1 Hs.523774 293.2 PP 330.3 PP ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000170345 FOS Hs.25647 1254.3 PP 1832.65 PP ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000034713 GABARAPL2 Hs.461379 952 PP 625.75 PP ENSG00000100644 HIF1A Hs.509554 866.5 PP 1037.1 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000113263 ITK Hs.483938 85.1 PP 57.35 PP ENSG00000008083 JARID2 Hs.269059 1015 PP 894 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000177606 JUN Hs.525704 1300.5 PP 2286.95 PP ENSG00000170852 KBTBD2 Hs.372541 412.2 PP 381.65 PP ENSG00000055118 KCNH2 Hs.188021 592.3 PP 951 PP ENSG00000114030 KPNA1 Hs.161008 121.8 PP 91.95 PP ENSG00000055208 MAP3K7IP2 Hs.269775 219.1 PP 142.8 PP ENSG00000012983 MAP4K5 Hs.130491 66 PP 116 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000143995 MEIS1 Hs.526754 452.1 PP 262.65 PP ENSG00000056586 MNAB Hs.533499 117.9 PP 127.15 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000113387 PC4 Hs.229641 700.5 PP 1225.75 PP ENSG00000168283 PCGF4 Hs.380403 254.7 PP 304.1 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000184588 PDE4B Hs.198072 234.1 PP 349.5 PP ENSG00000184588 PDE4B Hs.198072 119.8 PP 88.95 PP ENSG00000197329 PELI1 Hs.7886 83.3 PP 154.5 PP ENSG00000073921 PICALM Hs.163893 357.3 PP 315.6 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000185246 PRPF39 Hs.274337 63.4 PP 107.2 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000175582 RAB6A Hs.503222 371.4 PP 365.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000089902 RCOR1 Hs.510521 118.3 PP 144.05 PP ENSG00000173039 RELA Hs.502875 389 PP 393.5 PP ENSG00000106615 RHEB Hs.283521 943.5 PP 1172.5 PP ENSG00000177105 RHOG Hs.501728 536.1 PP 466.25 PP ENSG00000132383 RPA1 Hs.461925 256 PP 464.2 PP ENSG00000124782 RREB1 Hs.298248 339.9 PP 324.15 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000138758 11-Sep Hs.128199 350.4 PP 559 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000136527 SFRS10 Hs.533122 673.5 PP 894.8 PP ENSG00000155926 SLA Hs.75367 495.3 PP 494.3 PP ENSG00000127616 SMARCA4 Hs.327527 238 PP 345.6 PP ENSG00000115904 SOS1 Hs.278733 144 PP 169.4 PP ENSG00000172845 SP3 Hs.531587 137.8 PP 293.35 PP ENSG00000135250 SRPK2 Hs.285197 106.2 PP 118.7 PM ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000008282 SYPL1 Hs.80919 157.3 PP 190.55 PP ENSG00000135090 TAOK3 — 518.8 PP 394 PP ENSG00000114126 TFDP2 Hs.379018 253.2 PP 196.3 PA ENSG00000123066 THRAP2 Hs.159799 142.1 PP 396.2 PP ENSG00000106537 TM4SF13 Hs.364544 275.4 PP 526.45 PP ENSG00000173726 TOMM20 Hs.533192 656.5 PP 888.45 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000077254 USP33 Hs.480597 228.7 PP 299.75 PP ENSG00000119801 YPEL5 Hs.515890 1377.9 PP 1469.25 PP ENSG00000108953 YWHAE Hs.513851 328.6 PP 424.95 PP ENSG00000164924 YWHAZ Hs.492407 363.6 PP 520.8 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 222 ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000084234 APLP2 Hs.370247 1126.7 PP 668.55 PP ENSG00000084234 APLP2 Hs.370247 343.4 PP 262.35 PP ENSG00000117713 ARID1A Hs.468972 477.6 pp 444.8 PP ENSG00000163399 ATP1A1 Hs.371889 370.4 PP 539.1 PP ENSG00000154640 BTG3 Hs.473420 315.6 PP 378.5 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PP ENSG00000160967 CUTL1 Hs.438974 333.3 PP 412.55 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000132589 FLOT2 Hs.514038 393.4 PP 355.45 PP ENSG00000170345 FOS Hs.25647 1254.3 PP 1832.65 PP ENSG00000165879 FRAT1 Hs.126057 207.4 PP 183.35 PP ENSG00000138668 HNRPD Hs.480073 785.7 PP 1067.15 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000171988 JMJD1C Hs.413416 107 PP 198.85 PP ENSG00000176407 KCMF1 Hs.345694 751.2 PP 938.3 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000143995 MEIS1 Hs.526754 452.1 PP 262.65 PP ENSG00000125445 MRPS7 Hs.71787 381.8 PP 338.3 PA ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000114209 PDCD10 Hs.478150 463.6 PP 560.4 PP ENSG00000168291 PDHB Hs.161357 453.5 PP 670.7 PP ENSG00000112511 PHF1 Hs.166204 903.7 PP 604.1 PP ENSG00000118495 PLAGL1 Hs.444975 187.1 PP 357.8 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000138073 PREB Hs.279784 324.3 PP 251.45 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000077092 RARB Hs.436538 111.5 PP 156.85 PP ENSG00000125976 RBM12 — 321.1 PP 313.35 PP ENSG00000153250 RBMS1 Hs.470412 144.9 PP 216.05 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000160633 SAFB Hs.23978 376.8 PP 261.35 PP ENSG00000138760 SCARB2 Hs.349656 81.4 PP 116.15 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000102038 SMARCA1 Hs.152292 101.1 PP 72.95 PA ENSG00000180283 SUMO2 Hs.380973 1013.1 PP 783 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000100242 UNC84B Hs.517622 560.7 PP 333.25 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP 221 ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000075624 ACTB Hs.520640 11983.4 PP 11502.85 PP ENSG00000131503 ANKHD1 Hs.434219 168 PP 163.05 PP ENSG00000177879 AP3S1 Hs.406191 647.6 PP 1020.05 PP ENSG00000084234 APLP2 Hs.370247 1126.7 PP 668.55 PP ENSG00000168374 ARF4 Hs.148330 129 PP 157.5 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000170540 ARL6IP Hs.75249 155.3 PP 376.15 PP ENSG00000163399 ATP1A1 Hs.371889 370.4 PP 539.1 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000104765 BNIP3L Hs.131226 239.7 PP 375.45 PP ENSG00000152242 C18orf25 Hs.116486 129.7 PP 130.6 PA ENSG00000168958 C2orf33 Hs.471528 235.3 PP 302.3 PP ENSG00000067955 CBFB Hs.460988 719.1 PP 1032 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000155111 CDC2L6 Hs.193251 325 PP 341.25 PP ENSG00000111276 CDKN1B Hs.238990 333.5 PP 374.65 PP ENSG00000072609 CHFR Hs.507336 247.4 PP 253.05 PP ENSG00000131873 CHSY1 Hs.110488 404.5 PP 490.95 PP ENSG00000125107 CNOT1 Hs.460923 658.2 PP 662.1 PP ENSG00000145708 CRHBP Hs.115617 536.3 PP 346.1 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000168036 CTNNB1 Hs.476018 343.5 PP 364.4 PP ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PA ENSG00000160967 CUTL1 Hs.438974 333.3 PP 412.55 PP ENSG00000165659 DACH1 Hs.129452 95.1 PP 144.8 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000183690 EFHC2 Hs.521953 162.6 PP 209.65 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000131503 EIF4EBP3 /// — 285.5 PP 200 PP MASK-BP3 ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000157557 ETS2 Hs.517296 188.3 PP 297.8 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000143756 FBXO28 Hs.64691 106.1 PP 70.5 PA ENSG00000170345 FOS Hs.25647 1254.3 PP 1832.65 PP ENSG00000165879 FRAT1 Hs.126057 207.4 PP 183.35 PP ENSG00000065135 GNAI3 Hs.73799 603.4 PP 763.55 PP ENSG00000091527 H41 Hs.518265 735.1 PP 1129.65 PP ENSG00000100644 HIF1A Hs.509554 866.5 PP 1037.1 PP ENSG00000163349 HIPK1 Hs.532363 347.7 PP 488.5 PP ENSG00000177733 HNRPA0 Hs.96996 655 PP 723.4 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000138668 HNRPD Hs.480073 785.7 PP 1067.15 PP ENSG00000120075 HOXB5 Hs.149548 322 PP 238.15 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000186480 INSIG1 Hs.520819 196.9 PP 304.7 PP ENSG00000176407 KCMF1 Hs.345694 751.2 PP 938.3 PP ENSG00000121774 KHDRBS1 Hs.445893 1363 PP 1395.2 PP ENSG00000136813 KIAA0368 Hs.368255 153.6 PP 135.95 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000143995 MEIS1 Hs.526754 452.1 PP 262.65 PP ENSG00000123562 MORF4L2 Hs.326387 2189.8 PP 2626.1 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000147140 NONO Hs.533282 2434.4 PP 2382.1 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000115758 ODC1 Hs.467701 843.3 PP 1634.7 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000172239 PAIP1 Hs.482038 127.8 PP 157 PP ENSG00000114054 PCCB Hs.63788 270.6 PP 392.75 PP ENSG00000114209 PDCD10 Hs.478150 463.6 PP 560.4 PP ENSG00000118495 PLAGL1 Hs.444975 187.1 PP 357.8 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000116731 PRDM2 Hs.371823 329.6 PP 175.6 PP ENSG00000138073 PREB Hs.279784 324.3 PP 251.45 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000153201 RANBP2 Hs.199561 133.1 PP 185.85 PP ENSG00000153250 RBMS1 Hs.470412 144.9 PP 216.05 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000063978 RNF4 Hs.66394 115.8 PP 325.65 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000162105 SHANK2 Hs.268726 137.1 PP 128.55 PP ENSG00000147454 SLC25A37 Hs.122514 103 PP 86.95 PA ENSG00000080493 SLC4A4 Hs.5462 124.5 PP 268.4 PP ENSG00000102038 SMARCA1 Hs.152292 101.1 PP 72.95 PA ENSG00000167323 STIM1 Hs.501735 143.2 PP 99.7 PP ENSG00000180283 SUMO2 Hs.380973 1013.1 PP 783 PP ENSG00000140262 TCF12 Hs.511504 179.4 PP 439.15 PP ENSG00000071564 TCF3 Hs.371282 303.8 PP 276.8 PP ENSG00000071564 TCF3 Hs.371282 322.5 PP 443.9 PM ENSG00000148737 TCF7L2 Hs.501080 102.3 PP 100.85 PP ENSG00000163659 TIPARP Hs.12813 567.1 PP 1548.4 PP ENSG00000008952 TLOC1 Hs.529591 321.8 PP 343.45 PP ENSG00000140391 TSPAN3 Hs.5062 516.6 PP 661.45 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000198833 UBE2J1 Hs.163776 342.7 PP 357.2 PP ENSG00000100242 UNC84B Hs.517622 560.7 PP 333.25 PP ENSG00000124164 VAPB Hs.182625 245 PP 213.5 PP ENSG00000144560 VGLL4 Hs.373959 299.7 PP 175.6 PP ENSG00000158195 WASF2 Hs.469244 430.1 PP 367.5 PP ENSG00000085433 WDR47 Hs.546347 90.4 PP 116.6 PP ENSG00000083896 YT521 Hs.175955 318.2 PP 505.9 PP ENSG00000170949 ZNF160 Hs.467236 1056.4 PP 1016.85 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 123 There are no predicted targets for this microRNA in either prediction database 213 ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000177733 HNRPA0 Hs.96996 655 PP 723.4 PP ENSG00000010295 HOM-TES- Hs.15243 407 PP 355.35 PP 103 ENSG00000055208 MAP3K7IP2 Hs.269775 219.1 PP 142.8 PP ENSG00000005302 MSL3L1 Hs.307924 302.5 PP 200.1 PP ENSG00000100836 PABPN1 Hs.117176 758.2 PP 790.85 PP ENSG00000110851 PRDM4 Hs.506655 188.6 PP 183.55 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000080503 SMARCA2 Hs.298990 264.4 PP 201.3 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 191 ENSG00000116489 CAPZA1 Hs.514934 766.7 PP 1165.8 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000135930 EIF4E2 Hs.292026 538.3 PP 611.25 PP ENSG00000116478 HDAC1 Hs.88556 286.1 PP 397 PP ENSG00000114315 HES1 Hs.250666 232.7 PP 169.8 PP ENSG00000165119 HNRPK Hs.449171 761 PP 1269.35 PP ENSG00000008083 JARID2 Hs.269059 1015 PP 894 PP ENSG00000182979 MTA1 Hs.525629 428.2 PP 237.75 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000078618 NRD1 Hs.551509 874.1 PP 639.35 PP ENSG00000120265 PCMT1 Hs.279257 488.1 PP 649.4 PP ENSG00000115762 PLEKHB2 Hs.469944 181.7 PP 266 PP ENSG00000137492 PRKRIR Hs.503315 281.4 PP 549.7 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000170881 RNF139 Hs.492751 392.9 PP 435.75 PP ENSG00000171858 RPS21 Hs.190968 24441.6 PP 21034.85 PP ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000165280 VCP Hs.529782 278.5 PP 240.85 PP ENSG00000115935 WASPIP Hs.128067 418.1 PP 364.25 PP 30d ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000136518 ACTL6A Hs.435326 84.2 PP 105.6 PP ENSG00000177879 AP3S1 Hs.406191 647.6 PP 1020.05 PP ENSG00000144848 APG3L Hs.477126 235.6 PP 245.05 PP ENSG00000129675 ARHGEF6 Hs.522795 1207.5 PP 815.1 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000110075 C11orf23 Hs.503022 402.6 PP 319.5 PA ENSG00000139746 C13orf10 Hs.131715 119.8 PP 178.7 PP ENSG00000101084 C20orf24 Hs.184062 878.9 PP 1348.2 PP ENSG00000127022 CANX Hs.529890 1003.1 PP 2097.75 PP ENSG00000100261 CBX6 Hs.511952 308 PP 255.7 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000153922 CHD1 Hs.519474 89.4 PP 202.95 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000099942 CRKL Hs.5613 126.4 PP 192.1 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000113712 CSNK1A1 Hs.442592 1045.3 PP 1263.25 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000142634 EFHD2 Hs.465374 292.3 PP 242.65 PA ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000120533 ENY2 Hs.492555 316.2 PP 375.85 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000157554 ERG Hs.473819 369.4 PP 298.05 PP ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000182944 EWSR1 Hs.374477 389.7 PP 457.25 PP ENSG00000150907 FOXO1A Hs.370666 253.6 PP 140.95 PP ENSG00000145907 G3BP Hs.3353 167.7 PP 319.25 PP ENSG00000141429 GALNT1 Hs.514806 220 PP 273.8 PP ENSG00000109586 GALNT7 Hs.127407 97.2 PP 153.95 PP ENSG00000001084 GCLC Hs.271264 227.6 PP 219.2 PP ENSG00000177733 HNRPA0 Hs.96996 655 PP 723.4 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PP ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000044574 HSPA5 Hs.522394 1536.9 PP 3296.1 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000143815 LBR Hs.435166 1166 PP 1807.35 PP ENSG00000065548 LEREPO4 Hs.368598 265.5 PP 402.5 PP ENSG00000111885 MAN1A1 Hs.102788 309.1 PP 151 PP ENSG00000166974 MAPRE2 Hs.532824 857.4 PP 715.5 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000182979 MTA1 Hs.525629 428.2 PP 237.75 PP ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000177425 PAWR Hs.406074 148.3 PP 133.85 PP ENSG00000105835 PBEF1 Hs.489615 96.8 PP 138.65 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000112245 PTP4A1 Hs.227777 439.5 PP 431.2 PP ENSG00000175354 PTPN2 Hs.123352 759.9 PP 273 PP ENSG00000130508 PXDN Hs.332197 280.3 PP 114.7 PA ENSG00000048991 R3HDM Hs.412462 217.6 PP 376.75 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000145715 RASA1 Hs.553501 138.8 PP 103.6 PP ENSG00000125976 RBM12 — 321.1 PP 313.35 PP ENSG00000106615 RHEB Hs.283521 943.5 PP 1172.5 PP ENSG00000144580 RQCD1 Hs.148767 284.7 PP 361.25 PP ENSG00000122545 7-Sep Hs.191346 815 PP 1146.5 PP ENSG00000115524 SF3B1 Hs.471011 2127.6 PP 2173.9 PP ENSG00000115875 SFRS7 Hs.309090 378.7 PP 743.5 PP ENSG00000113558 SKP1A Hs.171626 657.2 PP 969.15 PP ENSG00000059804 SLC2A3 Hs.419240 275.9 PP 351.5 PP ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000077147 SMBP Hs.500674 358.3 PP 250.05 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000180283 SUMO2 Hs.380973 1013.1 PP 783 PP ENSG00000008282 SYPL1 Hs.80919 157.3 PP 190.55 PP ENSG00000136205 TENS1 Hs.520814 443.4 PP 221.15 PP ENSG00000144043 TEX261 Hs.516087 360.9 PP 229.45 PA ENSG00000114126 TFDP2 Hs.379018 253.2 PP 196.3 PA ENSG00000116001 TIA1 Hs.516075 151.6 PP 145 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000063244 U2AF2 Hs.528007 191 PP 227.15 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000103275 UBE2I Hs.302903 452.9 PP 427.25 PP ENSG00000009335 UBE3C Hs.118351 67.5 PP 175.9 PM ENSG00000118900 UBN1 Hs.440219 138.4 PP 302.15 PP ENSG00000162607 USP1 Hs.35086 275.3 PP 614.05 PP ENSG00000101558 VAPA Hs.165195 1051.8 PP 1198.45 PP ENSG00000108828 VAT1 Hs.514199 649.7 PP 585.4 PP ENSG00000165280 VCP Hs.529782 278.5 PP 240.85 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 25 ENSG00000138031 ADCY3 Hs.467898 208.6 PP 178.4 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000112237 CCNC Hs.430646 273.3 PP 380.8 PP ENSG00000118260 CREB1 Hs.516646 122.9 PP 230.35 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000132153 DHX30 Hs.517948 209.5 PP 193.5 PP ENSG00000128590 DNAJB9 Hs.6790 211.5 PP 433.55 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000123908 EIF2C2 Hs.449415 150.2 PP 115.85 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000109920 FNBP4 Hs.6834 501.2 PP 497.2 PP ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PP ENSG00000057608 GDI2 Hs.299055 198.2 PP 260.65 PP ENSG00000172534 HCFC1 Hs.83634 146.2 PP 233.9 PA ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000144381 HSPD1 Hs.113684 2868.6 PP 5689.3 PP ENSG00000143164 IQWD1 Hs.435741 168.5 PP 156.4 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PA ENSG00000012983 MAP4K5 Hs.130491 66 PP 116 PP ENSG00000112118 MCM3 Hs.179565 509.1 PP 637.3 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000165943 MOAP1 Hs.24719 527.1 PP 299.1 PP ENSG00000066136 NFYC Hs.233458 115.5 PP 168 PP ENSG00000170515 PA2G4 Hs.478044 251.3 PP 523.75 PP ENSG00000157654 PALM2- Hs.259461 181.4 PP 163.75 PP AKAP2 ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000169564 PCBP1 Hs.2853 1587.4 PP 1289.35 PP ENSG00000102225 PCTK1 Hs.496068 135 PP 88.45 PA ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000112511 PHF1 Hs.166204 903.7 PP 604.1 PP ENSG00000112941 POLS Hs.481542 355.5 PP 367.35 PP ENSG00000138430 PTD004 Hs.157351 848.2 PP 1052.6 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000063978 RNF4 Hs.66394 115.8 PP 325.65 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000184602 SNN Hs.459952 234.4 PP 239.3 PP ENSG00000120833 SOCS2 Hs.485572 715.8 PP 806.65 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000101972 STAG2 Hs.496710 392 PP 375.2 PP ENSG00000165169 TCTE1L Hs.446392 323 PP 369.75 PP ENSG00000177426 TGIF Hs.373550 116.7 PP 95.35 PM ENSG00000165699 TSC1 Hs.370854 232.7 PP 242.3 PP ENSG00000169764 UGP2 Hs.516217 656.9 PP 560.95 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000143952 VPS54 Hs.48499 187.9 PP 151.5 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000170949 ZNF160 Hs.467236 1056.4 PP 1016.85 PP 130a ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000151726 ACSL1 Hs.406678 180.6 PP 193.15 PP ENSG00000023516 AKAP11 Hs.105105 88.5 PP 69.7 PP ENSG00000170017 ALCAM Hs.150693 528.9 PP 695.45 PP ENSG00000137962 ARHGAP29 Hs.483238 72.2 PP 65.3 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000054267 ARID4B Hs.533633 227 PP 252.45 PP ENSG00000134108 ARL10C Hs.250009 578.1 PP 591.95 PP ENSG00000128989 ARPP-19 Hs.512908 247.7 PP 139.7 PP ENSG00000143970 ASXL2 Hs.119815 694.8 PP 535.25 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000017260 ATP2C1 Hs.546361 229.1 PP 322.9 PP ENSG00000147416 ATP6V1B2 Hs.295917 179.5 PP 183.85 PP ENSG00000198604 BAZ1A Hs.509140 102.4 PP 111.2 PA ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000029363 BCLAF1 Hs.486542 659.8 PP 1252.25 PP ENSG00000095564 BTAF1 Hs.500526 220.4 PP 333.3 PP ENSG00000133639 BTG1 Hs.255935 955.9 PP 1057.95 PP ENSG00000154640 BTG3 Hs.473420 315.6 PP 378.5 PP ENSG00000119906 C10orf6 Hs.447458 154.8 PP 126.8 PP ENSG00000110075 C11orf23 Hs.503022 402.6 PP 319.5 PA ENSG00000134153 C15orf24 Hs.160565 612.5 PP 706.2 PP ENSG00000152242 C18orf25 Hs.116486 129.7 PP 130.6 PA ENSG00000101166 C20orf45 Hs.3945 93.1 PP 74.8 PP ENSG00000162959 C2orf4 Hs.444969 410.5 PP 397.7 PA ENSG00000031003 C5orf5 Hs.483473 256.3 PP 316.85 PP ENSG00000112308 C6orf62 Hs.519930 330.6 PP 509.45 PP ENSG00000112308 C6orf62 Hs.519930 566.8 PP 770.5 PP ENSG00000112576 CCND3 Hs.534307 539.8 PP 402.15 PP ENSG00000110848 CD69 Hs.208854 1631.5 PP 1082.1 PP ENSG00000155111 CDC2L6 Hs.193251 325 PP 341.25 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000177200 CHD9 Hs.530936 222.6 PP 263 PP ENSG00000131873 CHSY1 Hs.110488 404.5 PP 490.95 PP ENSG00000141367 CLTC Hs.491351 1169 PP 1399.6 PP ENSG00000162368 CMPK Hs.11463 333.8 PP 336.55 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000198791 CNOT7 Hs.170553 250.3 PP 508.5 PP ENSG00000135940 COX5B Hs.1342 645 PP 568.3 PA ENSG00000115944 COX7A2L Hs.339639 1251.1 PP 1258.85 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000113712 CSNK1A1 Hs.442592 1045.3 PP 1263.25 PP ENSG00000168036 CTNNB1 Hs.476018 343.5 PP 364.4 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000166266 CUL5 Hs.440320 285.8 PP 246.8 PP ENSG00000083799 CYLD Hs.432993 137.6 PP 148.8 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000124795 DEK Hs.484813 901.9 PP 1127.65 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000132002 DNAJB1 Hs.515210 453.4 PP 2770.05 PP ENSG00000105993 DNAJB6 Hs.490745 189.7 PP 348.5 PP ENSG00000092964 DPYSL2 Hs.173381 505.1 PP 495.1 PP ENSG00000117505 DR1 Hs.348418 117.2 PP 188.65 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000151247 EIF4E Hs.249718 156.7 PP 224 PP ENSG00000111145 ELK3 Hs.46523 372.1 PP 280.75 PP ENSG00000012660 ELOVL5 Hs.520189 681.6 PP 667.3 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000124882 EREG Hs.115263 351.8 PP 535.15 PP ENSG00000124491 F13A1 Hs.335513 290.7 PP 299.8 PP ENSG00000119979 FAM45B /// Hs.434241 554.8 PP 690.2 PP FAM45A ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000166147 FBN1 Hs.146447 195.2 PP 178.7 PP ENSG00000173120 FBXL11 Hs.124147 237 PP 192.5 PP ENSG00000118564 FBXL5 Hs.479208 410.6 PP 319.15 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000143756 FBXO28 Hs.64691 106.1 PP 70.5 PA ENSG00000134884 FLJ10154 Hs.508644 843.1 PP 1079.5 PP ENSG00000153561 FLJ13910 Hs.75277 194.1 PP 143.15 PP ENSG00000132589 FLOT2 Hs.514038 393.4 PP 355.45 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000116717 GADD45A Hs.80409 266 PP 245.7 PP ENSG00000127955 GNAI1 Hs.134587 104.9 PP 139.15 PP ENSG00000135677 GNS Hs.334534 261.1 PP 248.15 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000112406 HECA Hs.197644 352.2 PP 377.45 PP ENSG00000164683 HEY1 Hs.234434 164.1 PP 151.85 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000169045 HNRPH1 Hs.202166 1986.4 PP 2132.6 PP ENSG00000126945 HNRPH2 Hs.278857 189.2 PP 158.45 PP ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000105323 HNRPUL1 Hs.155218 406.9 PP 401.15 PP ENSG00000106004 HOXA5 Hs.37034 507.2 PP 499.3 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000067829 IDH3G Hs.410197 249.2 PP 156.95 PA ENSG00000145703 IQGAP2 Hs.291030 537.8 PP 457.9 PP ENSG00000125347 IRF1 Hs.436061 467.7 PP 299.6 PP ENSG00000170852 KBTBD2 Hs.372541 412.2 PP 381.65 PP ENSG00000131149 KIAA0182 Hs.461647 273.2 PP 316.15 PP ENSG00000143702 KIAA0470 Hs.533635 146.2 PP 325 PP ENSG00000126775 KIAA0831 Hs.414809 254.4 PP 217.45 PP ENSG00000105063 KIAA1115 Hs.515610 227.5 PP 221.6 PM ENSG00000157404 KIT Hs.479754 339 PP 355.6 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000114030 KPNA1 Hs.161008 121.8 PP 91.95 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000068697 LAPTM4A Hs.467807 1059.2 PP 1145.5 PP ENSG00000107929 LARP5 Hs.498455 274.8 PP 203.9 PP ENSG00000123684 LPGAT1 Hs.497674 106 PP 114.3 PP ENSG00000135387 M11S1 Hs.471818 464.9 PP 451.45 PP ENSG00000003056 M6PR Hs.134084 566.2 PP 575.55 PP ENSG00000121579 MAK3 Hs.269528 268.8 PP 307 PP ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000197442 MAP3K5 Hs.186486 227.6 PP 272.25 PP ENSG00000047849 MAP4 Hs.517949 302.6 PP 276.5 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000075413 MARK3 Hs.35828 129.9 PP 75.05 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000138092 MGC11266 Hs.546428 152.2 PP 90.95 PA ENSG00000133858 MGC23401 Hs.527874 291 PP 309.55 PP ENSG00000133606 MKRN1 Hs.490347 392.7 PP 350.15 PP ENSG00000051825 MPHOSPH9 Hs.507175 261.2 PP 160.5 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000158747 NBL1 Hs.439671 370.3 PP 360.6 PA ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000140157 NIPA2 Hs.370367 284.1 PP 685.9 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000149308 NPAT Hs.171061 171.1 PP 140.65 PP ENSG00000124789 NUP153 Hs.121088 216.4 PP 291.8 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000145431 PDGFC Hs.148162 473.1 PP 395.4 PP ENSG00000197329 PELI1 Hs.7886 83.3 PP 154.5 PP ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000118482 PHF3 Hs.348921 260 PP 268.9 PP ENSG00000051382 PIK3CB Hs.239818 275.1 PP 280.95 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000113575 PPP2CA Hs.483408 360 PP 370.4 PP ENSG00000115825 PRKD3 Hs.173536 97.5 PP 111.1 PP ENSG00000197746 PSAP Hs.523004 1015.2 PP 647.25 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000120899 PTK2B Hs.491322 333.1 PP 183.65 PP ENSG00000112245 PTP4A1 Hs.227777 439.5 PP 431.2 PP ENSG00000175354 PTPN2 Hs.123352 759.9 PP 273 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000130508 PXDN Hs.332197 280.3 PP 114.7 PA ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000048991 R3HDM Hs.412462 217.6 PP 376.75 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000144566 RAB5A Hs.475663 471.3 PP 578.35 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000167461 RAB8A Hs.5947 675.2 PP 756.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000017797 RALBP1 Hs.528993 379 PP 244.05 PP ENSG00000077092 RARB Hs.436538 111.5 PP 156.85 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000022840 RNF10 Hs.442798 327.5 PP 282.35 PM ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000143947 RPS27A Hs.311640 7964.6 PP 6951 PP ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000130779 RSN Hs.524809 76.6 PP 58.05 PP ENSG00000115310 RTN4 Hs.429581 710.8 PP 1341.5 PP ENSG00000020633 RUNX3 Hs.170019 541.5 PP 272.8 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000198838 RYR3 Hs.369250 116.8 PP 131.8 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000140497 SCAMP2 Hs.458917 411.8 PP 495 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000122545 7-Sep Hs.191346 815 PP 1146.5 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000116754 SFRS11 Hs.479693 819.9 PP 1077.55 PP ENSG00000162105 SHANK2 Hs.268726 137.1 PP 128.55 PP ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000102172 SMS Hs.529887 287.8 PP 275.25 PP ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000089006 SNX5 Hs.316890 327.9 PP 403.25 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000115904 SOS1 Hs.278733 144 PP 169.4 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000065526 SPEN Hs.270499 257.6 PP 262.7 PP ENSG00000115306 SPTBN1 Hs.503178 589.9 PP 344.65 PP ENSG00000124783 SSR1 Hs.114033 600.7 PP 686.65 PP ENSG00000112079 STK38 Hs.409578 365.8 PP 304.4 PP ENSG00000173812 SUI1 Hs.150580 6046 PP 6098.85 PP ENSG00000101945 SUV39H1 Hs.522639 267.8 PP 383.35 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000135090 TAOK3 — 518.8 PP 394 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000028839 TBPL1 Hs.486507 170.1 PP 187.95 PP ENSG00000132604 TERF2 Hs.63335 241.2 PP 215.3 PP ENSG00000135269 TES Hs.533391 397.3 PP 457.65 PP ENSG00000114126 TFDP2 Hs.379018 253.2 PP 196.3 PA ENSG00000177426 TGIF Hs.373550 116.7 PP 95.35 PM ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000154174 TOMM70A Hs.227253 585.1 PP 581.85 PP ENSG00000166340 TPP1 Hs.523454 200.3 PP 229.1 PP ENSG00000067167 TRAM1 Hs.491988 573.3 PP 894.4 PP ENSG00000140391 TSPAN3 Hs.5062 516.6 PP 661.45 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000151148 UBE3B Hs.374067 156.7 PP 146.6 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000170832 USP32 Hs.132868 120.2 PP 118.35 PP ENSG00000077254 USP33 Hs.480597 228.7 PP 299.75 PP ENSG00000170242 USP47 Hs.501924 321.7 PP 333.3 PP ENSG00000090686 USP48 Hs.467524 366.1 PP 393.65 PP ENSG00000173218 VANGL1 Hs.515130 73.8 PP 89.5 PA ENSG00000144560 VGLL4 Hs.373959 299.7 PP 175.6 PP ENSG00000115561 VPS24 Hs.255015 277.6 PP 248.55 PP ENSG00000085433 WDR47 Hs.546347 90.4 PP 116.6 PP ENSG00000146457 WTAP Hs.446091 400.8 PP 406.6 PP ENSG00000119596 YLPM1 Hs.531111 402.5 PP 461.6 PP ENSG00000119801 YPEL5 Hs.515890 1377.9 PP 1469.25 PP ENSG00000198492 YTHDF2 Hs.532286 351.2 PP 449.7 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000185650 ZFP36L1 Hs.85155 94.5 PP 140.7 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000114514 ZNF148 Hs.380334 211.6 PP 226.65 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 197 ENSG00000168710 AHCYL1 Hs.485365 408.7 PP 493.4 PP ENSG00000004455 AK2 Hs.470907 303.6 PP 498.6 PP ENSG00000114573 ATP6V1A Hs.477155 710.1 PP 1105.8 PP ENSG00000115307 AUP1 Hs.411480 382.3 PP 325.35 PP ENSG00000179218 CALR Hs.515162 398.5 PP 1371.55 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000158486 DNAH3 Hs.526500 258.2 PP 268.35 PM ENSG00000123908 EIF2C2 Hs.449415 150.2 PP 115.85 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000066044 ELAVL1 Hs.184492 534.6 PP 734.45 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000010295 HOM-TES- Hs.15243 407 PP 355.35 PP 103 ENSG00000074356 HSA277841 Hs.120963 222.9 PP 150.05 PP ENSG00000169032 MAP2K1 Hs.145442 188.8 PP 162.95 PP ENSG00000121940 MCLC Hs.552587 115.5 PP 140.65 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000124789 NUP153 Hs.121088 216.4 PP 291.8 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000167770 OTUB1 Hs.473788 266 PP 155.35 PA ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000132341 RAN Hs.10842 1434.8 PP 2597 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000140416 TPM1 Hs.133892 394.4 PP 661.4 PP ENSG00000043514 TRIT1 Hs.356554 335.4 PP 168.4 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PA ENSG00000118900 UBN1 Hs.440219 138.4 PP 302.15 PP 17 ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000084234 APLP2 Hs.370247 1126.7 PP 668.55 PP ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000095139 ARCN1 Hs.33642 285 PP 317.05 PP ENSG00000143761 ARF1 Hs.286221 1245.2 PP 798.4 PP ENSG00000175220 ARHGAP1 Hs.138860 594 PP 502.3 PP ENSG00000111875 ASF1A Hs.292316 126.5 PP 114.6 PP ENSG00000154518 ATP5G3 Hs.429 1112 PP 1334.45 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000095739 BAMBI Hs.533336 207.8 PP 106.85 PP ENSG00000029363 BCLAF1 Hs.486542 659.8 PP 1252.25 PP ENSG00000145741 BTF3 Hs.529798 6371.5 PP 4884.45 PP ENSG00000133639 BTG1 Hs.255935 955.9 PP 1057.95 PP ENSG00000119906 C10orf6 Hs.447458 154.8 PP 126.8 PP ENSG00000110075 C11orf23 Hs.503022 402.6 PP 319.5 PA ENSG00000116489 CAPZA1 Hs.514934 766.7 PP 1165.8 PP ENSG00000113328 CCNG1 Hs.79101 1025 PP 737.8 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000166226 CCT2 Hs.189772 166.1 PP 259.15 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000111642 CHD4 Hs.162233 299.5 PP 431.1 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000167193 CRK Hs.461896 114.9 PP 153.9 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PA ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000160967 CUTL1 Hs.438974 333.3 PP 412.55 PP ENSG00000071626 DAZAP1 Hs.222510 49.7 PP 130.7 PA ENSG00000183283 DAZAP2 Hs.369761 1267.2 PP 976.7 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000108654 DDX5 Hs.279806 3052 PP 3508.95 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000107581 EIF3S10 Hs.523299 522.9 PP 586.55 PP ENSG00000151247 EIF4E Hs.249718 156.7 PP 224 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000173120 FBXL11 Hs.124147 237 PP 192.5 PP ENSG00000118564 FBXL5 Hs.479208 410.6 PP 319.15 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000022267 FHL1 Hs.435369 5240 PP 3151.75 PP ENSG00000170345 FOS Hs.25647 1254.3 PP 1832.65 PP ENSG00000150907 FOXO1A Hs.370666 253.6 PP 140.95 PP ENSG00000114861 FOXP1 Hs.431498 322.7 PP 410.3 PP ENSG00000163430 FSTL1 Hs.269512 408.6 PP 227.95 PP ENSG00000143641 GALNT2 Hs.300834 321.4 PP 333.55 PP ENSG00000057608 GDI2 Hs.299055 198.2 PP 260.65 PP ENSG00000115806 GORASP2 Hs.431317 359.7 PP 304.85 PP ENSG00000110768 GTF2H1 Hs.523510 167.7 PP 191.7 PP ENSG00000143321 HDGF Hs.506748 243.6 PP 858.8 PP ENSG00000051108 HERPUD1 Hs.146393 253 PP 588.95 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000029993 HMGB3 Hs.19114 309 PP 460.6 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000125944 HNRPR Hs.373763 839.4 PP 980.1 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000105323 HNRPUL1 Hs.155218 406.9 PP 401.15 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000067829 IDH3G Hs.410197 249.2 PP 156.95 PA ENSG00000070061 IKBKAP Hs.494738 157.6 PP 208.95 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000177606 JUN Hs.525704 1300.5 PP 2286.95 PP ENSG00000170852 KBTBD2 Hs.372541 412.2 PP 381.65 PP ENSG00000121774 KHDRBS1 Hs.445893 1363 PP 1395.2 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000108424 KPNB1 Hs.532793 415.1 PP 709.85 PP ENSG00000160789 LMNA Hs.491359 309.3 PP 352.9 PP ENSG00000121104 LOC81558 Hs.514308 3067.5 PP 1370.7 PP ENSG00000163818 LZTFL1 Hs.30824 199 PP 253.95 PP ENSG00000173327 MAP3K11 Hs.502872 355.1 PP 326.8 PP ENSG00000104814 MAP4K1 Hs.95424 586.5 PP 231.45 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000136536 7-Mar Hs.529272 175.3 PP 173.1 PP ENSG00000165406 8-Mar Hs.499489 295.9 PP 295.85 PP ENSG00000166986 MARS Hs.355867 460.7 PP 614.95 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000143995 MEIS1 Hs.526754 452.1 PP 262.65 PP ENSG00000133606 MKRN1 Hs.490347 392.7 PP 350.15 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000133026 MYH10 Hs.16355 375.1 PP 362.5 PP ENSG00000136504 MYST2 Hs.21907 331.7 PP 192.25 PP ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000125356 NDUFA1 Hs.534168 2121.1 PP 1598.7 PP ENSG00000069869 NEDD4 Hs.1565 186.1 PP 193.9 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000137420 NOL7 Hs.549161 1095.5 PP 1222.05 PP ENSG00000181163 NPM1 Hs.519452 8905.6 PP 11897.7 PP ENSG00000181163 NPM1 Hs.519452 2088.9 PP 2381.65 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000046651 OFD1 Hs.6483 1022.7 PP 692.15 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000115421 PAPOLG Hs.387471 153.2 PP 91.25 PP ENSG00000157212 PAXIP1 Hs.443881 139.4 PP 130.7 PP ENSG00000056661 PCGF2 Hs.371617 231.6 PP 160.8 PP ENSG00000185619 PCGF3 Hs.144309 192.1 PP 237.55 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000164040 PGRMC2 Hs.507910 89.1 PP 87.85 PM ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000181191 PJA1 Hs.522679 316.3 PP 332.1 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000100941 PNN Hs.409965 839.5 PP 617.3 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000113575 PPP2CA Hs.483408 360 PP 370.4 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000116731 PRDM2 Hs.371823 329.6 PP 175.6 PP ENSG00000100519 PSMC6 Hs.156171 143.7 PP 216.4 PP ENSG00000125818 PSMF1 Hs.471917 254.5 PP 259.45 PP ENSG00000175354 PTPN2 Hs.123352 759.9 PP 273 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000130508 PXDN Hs.332197 280.3 PP 114.7 PA ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000175582 RAB6A Hs.503222 371.4 PP 365.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000132341 RAN Hs.10842 1434.8 PP 2597 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000127870 RNF6 Hs.136885 74.1 PP 122.9 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000148484 RSU1 Hs.524161 298.8 PP 294.55 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000079332 SARA1 Hs.499960 233.7 PP 442.85 PP ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000162105 SHANK2 Hs.268726 137.1 PP 128.55 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000113558 SKP1A Hs.171626 657.2 PP 969.15 PP ENSG00000075415 SLC25A3 Hs.290404 2025.9 PP 2749.5 PP ENSG00000059804 SLC2A3 Hs.419240 275.9 PP 351.5 PP ENSG00000080503 SMARCA2 Hs.298990 264.4 PP 201.3 PP ENSG00000173473 SMARCC1 Hs.476179 487 PP 483.35 PP ENSG00000120833 SOCS2 Hs.485572 715.8 PP 806.65 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000168610 STAT3 Hs.463059 401.7 PP 390.05 PP ENSG00000132718 SYT11 Hs.32984 106.3 PP 102.95 PP ENSG00000108264 TADA2L Hs.500066 108 PP 97.9 PA ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000106052 TAX1BP1 Hs.34576 550 PP 486.2 PP ENSG00000113649 TCERG1 Hs.443465 196.5 PP 257.25 PP ENSG00000101337 TM9SF4 Hs.529360 129.2 PP 121.3 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000083312 TNPO1 Hs.482497 483 PP 750.85 PP ENSG00000102804 TSC22D1 Hs.450972 1492.8 PP 2518.9 PP ENSG00000117289 TXNIP Hs.533977 698.8 PP 1099.3 PP ENSG00000150991 UBC Hs.520348 2138.1 PP 2607.15 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000009335 UBE3C Hs.118351 67.5 PP 175.9 PM ENSG00000077254 USP33 Hs.480597 228.7 PP 299.75 PP ENSG00000134215 VAV3 Hs.267659 615.4 PP 341.3 PP ENSG00000026025 VIM Hs.533317 4064.1 PP 2437.95 PP ENSG00000132716 WDR42A Hs.492236 195.9 PP 233.1 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000185650 ZFP36L1 Hs.85155 94.5 PP 140.7 PP ENSG00000015171 ZMYND11 Hs.292265 403.3 PP 784.1 PP ENSG00000114514 ZNF148 Hs.380334 211.6 PP 226.65 PP ENSG00000169714 ZNF9 Hs.518249 1408.6 PP 1399.55 PP 20 ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000170776 AKAP13 Hs.459211 192.3 PP 198.75 PA ENSG00000117020 AKT3 Hs.498292 246.4 PP 259.35 PP ENSG00000133805 AMPD3 Hs.501890 253.6 PP 285.4 PP ENSG00000107104 ANKRD15 Hs.493272 235.2 PP 131.45 PP ENSG00000182287 AP1S2 Hs.121592 292 PP 269.6 PP ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000143761 ARF1 Hs.286221 1245.2 PP 798.4 PP ENSG00000175220 ARHGAP1 Hs.138860 594 PP 502.3 PP ENSG00000104880 ARHGEF18 Hs.465763 366 PP 254.9 PA ENSG00000054267 ARID4B Hs.533633 227 PP 252.45 PP ENSG00000188042 ARL7 Hs.111554 240.7 PP 203.4 PP ENSG00000111875 ASF1A Hs.292316 126.5 PP 114.6 PP ENSG00000095739 BAMBI Hs.533336 207.8 PP 106.85 PP ENSG00000029363 BCLAF1 Hs.486542 659.8 PP 1252.25 PP ENSG00000133639 BTG1 Hs.255935 955.9 PP 1057.95 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000154640 BTG3 Hs.473420 315.6 PP 378.5 PP ENSG00000110075 C11orf23 Hs.503022 402.6 PP 319.5 PA ENSG00000141452 C18orf8 Hs.529006 232.8 PP 242.05 PP ENSG00000105176 C19orf2 Hs.466391 501.6 PP 404.65 PP ENSG00000117616 C1orf63 Hs.259412 1202.1 PP 1000.85 PP ENSG00000110888 C1QDC1 Hs.234355 291.3 PP 261.05 PP ENSG00000127022 CANX Hs.529890 1003.1 PP 2097.75 PP ENSG00000127022 CANX Hs.529890 253.4 PP 361.2 PP ENSG00000118971 CCND2 Hs.376071 1114.1 PP 1244.6 PA ENSG00000113328 CCNG1 Hs.79101 1025 PP 737.8 PP ENSG00000138764 CCNG2 Hs.13291 120.9 PP 268.8 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000110848 CD69 Hs.208854 1631.5 PP 1082.1 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000177200 CHD9 Hs.530936 222.6 PP 263 PP ENSG00000131873 CHSY1 Hs.110488 404.5 PP 490.95 PP ENSG00000162368 CMPK Hs.11463 333.8 PP 336.55 PP ENSG00000198791 CNOT7 Hs.170553 250.3 PP 508.5 PP ENSG00000121058 COIL Hs.532795 134.2 PP 210.15 PP ENSG00000167193 CRK Hs.461896 114.9 PP 153.9 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000183283 DAZAP2 Hs.369761 1267.2 PP 976.7 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000108654 DDX5 Hs.279806 3052 PP 3508.95 PP ENSG00000105993 DNAJB6 Hs.490745 189.7 PP 348.5 PP ENSG00000128590 DNAJB9 Hs.6790 211.5 PP 433.55 PP ENSG00000092964 DPYSL2 Hs.173381 505.1 PP 495.1 PP ENSG00000139318 DUSP6 Hs.298654 166.6 PP 316.85 PP ENSG00000157540 DYRK1A Hs.368240 367.8 PP 751.2 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000104517 EDD1 Hs.492445 254.6 PP 227.15 PP ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000107581 EIF3S10 Hs.523299 522.9 PP 586.55 PP ENSG00000151247 EIF4E Hs.249718 156.7 PP 224 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000109381 ELF2 Hs.260903 150.8 PP 152.4 PP ENSG00000111145 ELK3 Hs.46523 372.1 PP 280.75 PP ENSG00000050405 EPLIN Hs.525419 265.5 PP 309.7 PP ENSG00000124882 EREG Hs.115263 351.8 PP 535.15 PP ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000108799 EZH1 Hs.194669 211.4 PP 194.45 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000119979 FAM45B /// Hs.434241 554.8 PP 690.2 PP FAM45A ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000173120 FBXL11 Hs.124147 237 PP 192.5 PP ENSG00000118564 FBXL5 Hs.479208 410.6 PP 319.15 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000143756 FBXO28 Hs.64691 106.1 PP 70.5 PA ENSG00000022267 FHL1 Hs.435369 5240 PP 3151.75 PP ENSG00000111011 FLJ11021 Hs.432996 202 PP 392.6 PP ENSG00000109920 FNBP4 Hs.6834 501.2 PP 497.2 PP ENSG00000198815 FOXJ3 Hs.26023 458.7 PP 380.45 PP ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PP ENSG00000145907 G3BP Hs.3353 167.7 PP 319.25 PP ENSG00000104064 GABPB2 Hs.546852 129.3 PP 183.75 PM ENSG00000143641 GALNT2 Hs.300834 321.4 PP 333.55 PP ENSG00000196700 GM632 Hs.551552 103.5 PP 145.05 PP ENSG00000113384 GOLPH3 Hs.408909 585.8 PP 782.9 PP ENSG00000112406 HECA Hs.197644 352.2 PP 377.45 PP ENSG00000100644 HIF1A Hs.509554 866.5 PP 1037.1 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000029993 HMGB3 Hs.19114 309 PP 460.6 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000067829 IDH3G Hs.410197 249.2 PP 156.95 PA ENSG00000168556 ING2 Hs.107153 177 PP 151.85 PP ENSG00000125347 IRF1 Hs.436061 467.7 PP 299.6 PP ENSG00000116679 IVNS1ABP Hs.497183 251.6 PP 288.25 PP ENSG00000117139 JARID1B Hs.443650 203.6 PP 353.6 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000177606 JUN Hs.525704 1300.5 PP 2286.95 PP ENSG00000137944 KAT3 Hs.481898 518.7 PP 319.8 PP ENSG00000121774 KHDRBS1 Hs.445893 1363 PP 1395.2 PP ENSG00000143702 KIAA0470 Hs.533635 146.2 PP 325 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000068697 LAPTM4A Hs.467807 1059.2 PP 1145.5 PP ENSG00000172292 LASS6 Hs.506829 536.2 PP 463.8 PP ENSG00000121104 LOC81558 Hs.514308 3067.5 PP 1370.7 PP ENSG00000123684 LPGAT1 Hs.497674 106 PP 114.3 PP ENSG00000171492 LRRC8D Hs.482087 543.3 PP 374.45 PP ENSG00000163818 LZTFL1 Hs.30824 199 PP 253.95 PP ENSG00000003056 M6PR Hs.134084 566.2 PP 575.55 PP ENSG00000187391 MAGI2 Hs.488945 93 PP 59.4 PA ENSG00000173327 MAP3K11 Hs.502872 355.1 PP 326.8 PP ENSG00000197442 MAP3K5 Hs.186486 227.6 PP 272.25 PP ENSG00000104814 MAP4K1 Hs.95424 586.5 PP 231.45 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000166974 MAPRE2 Hs.532824 857.4 PP 715.5 PP ENSG00000145495 6-Mar Hs.432862 597.3 PP 536.05 PP ENSG00000165406 8-Mar Hs.499489 295.9 PP 295.85 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000124733 MEA1 Hs.278362 452.7 PP 460.2 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000138092 MGC11266 Hs.546428 152.2 PP 90.95 PA ENSG00000198408 MGEA5 Hs.500842 363.7 PP 363.05 PP ENSG00000133606 MKRN1 Hs.490347 392.7 PP 350.15 PP ENSG00000185787 MORF4L1 Hs.374503 3350.8 PP 4457.05 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000132780 NASP Hs.319334 273.5 PP 312.4 PP ENSG00000158747 NBL1 Hs.439671 370.3 PP 360.6 PA ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000125356 NDUFA1 Hs.534168 2121.1 PP 1598.7 PP ENSG00000069869 NEDD4 Hs.1565 186.1 PP 193.9 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000137420 NOL7 Hs.549161 1095.5 PP 1222.05 PP ENSG00000149308 NPAT Hs.171061 171.1 PP 140.65 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000157212 PAXIP1 Hs.443881 139.4 PP 130.7 PP ENSG00000197111 PCBP2 Hs.546271 2032.3 PP 1761.15 PP ENSG00000185619 PCGF3 Hs.144309 192.1 PP 237.55 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000114209 PDCD10 Hs.478150 463.6 PP 560.4 PP ENSG00000112511 PHF1 Hs.166204 903.7 PP 604.1 PP ENSG00000166037 PIG8 Hs.101014 356.2 PP 374.1 PP ENSG00000145675 PIK3R1 Hs.132225 249.1 PP 181 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000100941 PNN Hs.409965 839.5 PP 617.3 PP ENSG00000113575 PPP2CA Hs.483408 360 PP 370.4 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000138814 PPP3CA Hs.435512 122.5 PP 205 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000116731 PRDM2 Hs.371823 329.6 PP 175.6 PP ENSG00000005249 PRKAR2B Hs.433068 200.7 PP 237.75 PP ENSG00000171862 PTEN Hs.500466 353.7 PP 334.4 PP ENSG00000112245 PTP4A1 Hs.227777 439.5 PP 431.2 PP ENSG00000175354 PTPN2 Hs.123352 759.9 PP 273 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000130508 PXDN Hs.332197 280.3 PP 114.7 PA ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000111737 RAB35 Hs.524788 394.6 PP 431.2 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000175582 RAB6A Hs.503222 371.4 PP 365.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000101265 RASSF2 Hs.379970 129.4 PP 203.9 PP ENSG00000139687 RB1 Hs.408528 152.7 PP 153.35 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000103479 RBL2 Hs.513609 203.5 PP 188.25 PP ENSG00000089902 RCOR1 Hs.510521 118.3 PP 144.05 PP ENSG00000082996 RNF13 Hs.12333 230.9 PP 344.6 PP ENSG00000063978 RNF4 Hs.66394 115.8 PP 325.65 PP ENSG00000127870 RNF6 Hs.136885 74.1 PP 122.9 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000117748 RPA2 Hs.79411 289.9 PP 378.45 PP ENSG00000117676 RPS6KA1 Hs.149957 288.1 PP 176.7 PA ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000079332 SARA1 Hs.499960 233.7 PP 442.85 PP ENSG00000140497 SCAMP2 Hs.458917 411.8 PP 495 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000120742 SERP1 Hs.518326 285.7 PP 343.4 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000112081 SFRS3 Hs.405144 884.9 PP 923.3 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000080493 SLC4A4 Hs.5462 124.5 PP 268.4 PP ENSG00000080503 SMARCA2 Hs.298990 264.4 PP 201.3 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000115904 SOS1 Hs.278733 144 PP 169.4 PP ENSG00000196700 SOX18 Hs.8619 1264.6 PP 2674 PP ENSG00000096063 SRPK1 Hs.443861 231.6 PP 200.5 PP ENSG00000168610 STAT3 Hs.463059 401.7 PP 390.05 PP ENSG00000112079 STK38 Hs.409578 365.8 PP 304.4 PP ENSG00000132718 SYT11 Hs.32984 106.3 PP 102.95 PP ENSG00000106052 TAX1BP1 Hs.34576 550 PP 486.2 PP ENSG00000100207 TCF20 Hs.475018 251.3 PP 281.15 PP ENSG00000152291 TGOLN2 Hs.14894 430.2 PP 542.8 PP ENSG00000123066 THRAP2 Hs.159799 142.1 PP 396.2 PP ENSG00000106829 TLE4 Hs.444213 309.2 PP 251.15 PP ENSG00000106537 TM4SF13 Hs.364544 275.4 PP 526.45 PP ENSG00000117289 TXNIP Hs.533977 698.8 PP 1099.3 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000198833 UBE2J1 Hs.163776 342.7 PP 357.2 PP ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000009335 UBE3C Hs.118351 67.5 PP 175.9 PM ENSG00000153560 UBP1 Hs.118041 280.2 PP 408.6 PP ENSG00000170832 USP32 Hs.132868 120.2 PP 118.35 PP ENSG00000173218 VANGL1 Hs.515130 73.8 PP 89.5 PA ENSG00000144560 VGLL4 Hs.373959 299.7 PP 175.6 PP ENSG00000122958 VPS26 Hs.499925 508.7 PP 610 PP ENSG00000132716 WDR42A Hs.492236 195.9 PP 233.1 PP ENSG00000134308 YWHAQ Hs.74405 922.3 PP 2337.65 PP ENSG00000100811 YY1 Hs.388927 539.7 PP 740.2 PP ENSG00000066422 ZBTB11 Hs.301956 137.1 PP 100.65 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000015171 ZMYND11 Hs.292265 403.3 PP 784.1 PP ENSG00000167635 ZNF146 Hs.301819 293.3 PP 396.15 PP ENSG00000114514 ZNF148 Hs.380334 211.6 PP 226.65 PP ENSG00000136451 ZNF161 Hs.463569 140.5 PP 193.4 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000169155 ZNF297B Hs.355581 115.9 PP 112.4 PA ENSG00000169714 ZNF9 Hs.518249 1408.6 PP 1399.55 PP let-7b ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000184009 ACTG1 Hs.514581 11731 PP 14874 PP ENSG00000151320 AKAP6 Hs.509083 137.8 PP 117.05 PP ENSG00000145020 AMT Hs.102 345.8 PP 323.85 PM ENSG00000062725 APPBP2 Hs.84084 106.4 PP 116.15 PA ENSG00000175220 ARHGAP1 Hs.138860 594 PP 502.3 PP ENSG00000116539 ASH1L Hs.491060 244.1 PP 214.3 PA ENSG00000171456 ASXL1 Hs.374043 275.6 PP 307.25 PP ENSG00000082153 BZW1 Hs.355983 536.1 PP 794.1 PP ENSG00000139746 C13orf10 Hs.131715 119.8 PP 178.7 PP ENSG00000104327 CALB1 Hs.65425 79.6 PP 42.05 PA ENSG00000131236 CAP1 Hs.370581 765.9 PP 691 PP ENSG00000118971 CCND2 Hs.376071 1114.1 PP 1244.6 PP ENSG00000112576 CCND3 Hs.534307 539.8 PP 402.15 PP ENSG00000111642 CHD4 Hs.162233 299.5 PP 431.1 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000101266 CSNK2A1 Hs.446484 170.4 PP 261.4 PP ENSG00000159692 CTBP1 Hs.208597 253.9 PP 309.4 PP ENSG00000161202 DVL3 Hs.388116 134.8 PP 206.95 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000123908 EIF2C2 Hs.449415 150.2 PP 115.85 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000109381 ELF2 Hs.260903 150.8 PP 152.4 PP ENSG00000102034 ELF4 Hs.271940 309.2 PP 202.7 PP ENSG00000112146 FBXO9 Hs.216653 397 PP 447.8 PA ENSG00000100442 FKBP3 Hs.509226 386.9 PP 438.15 PP ENSG00000143641 GALNT2 Hs.300834 321.4 PP 333.55 PP ENSG00000108588 GK001 Hs.202011 160.3 PP 198.45 PP ENSG00000174021 GNG5 Hs.513557 683.5 PP 869.7 PP ENSG00000103342 GSPT1 Hs.528780 356.7 PP 369.6 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PP ENSG00000109083 IFT20 Hs.4187 322.8 PP 241.4 PP ENSG00000171988 JMJD1C Hs.413416 107 PP 198.85 PP ENSG00000100097 LGALS1 Hs.445351 454.5 PP 244.1 PP ENSG00000160789 LMNA Hs.491359 309.3 PP 352.9 PP ENSG00000111252 LNK Hs.506784 230.1 PP 198.8 PP ENSG00000054219 LY75 Hs.153563 126.4 PP 175.65 PP ENSG00000011009 LYPLA2 /// Hs.534075 585.5 PP 486 PP LYPLA2P1 /// LOC388499 ENSG00000166963 MAP1A Hs.194301 433.9 PP 321.4 PM ENSG00000075413 MARK3 Hs.35828 129.9 PP 75.05 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000138386 NAB1 Hs.107474 187.9 PP 203.9 PP ENSG00000187109 NAP1L1 Hs.524599 1185.6 PP 1531.65 PP ENSG00000106459 NRF1 Hs.298069 157.5 PP 126.8 PA ENSG00000102225 PCTK1 Hs.496068 135 PP 88.45 PA ENSG00000184588 PDE4B Hs.198072 234.1 PP 349.5 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000056687 RGL2 Hs.509622 340.5 PP 232.1 PA ENSG00000101782 RIOK3 Hs.445511 276.1 PP 311.7 PP ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000168758 SEMA4C Hs.516220 186.7 PP 157.95 PP ENSG00000102038 SMARCA1 Hs.152292 101.1 PP 72.95 PA ENSG00000145335 SNCA Hs.271771 337.6 PP 370.9 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000134215 VAV3 Hs.267659 615.4 PP 341.3 PP ENSG00000073905 VDAC1 Hs.202085 175.6 PP 289.2 PP ENSG00000122958 VPS26 Hs.499925 508.7 PP 610 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP 106 ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000136518 ACTL6A Hs.435326 84.2 PP 105.6 PP ENSG00000170776 AKAP13 Hs.459211 192.3 PP 198.75 PA ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000175220 ARHGAP1 Hs.138860 594 PP 502.3 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000111875 ASF1A Hs.292316 126.5 PP 114.6 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000095739 BAMBI Hs.533336 207.8 PP 106.85 PP ENSG00000029363 BCLAF1 Hs.486542 659.8 PP 1252.25 PP ENSG00000119906 C10orf6 Hs.447458 154.8 PP 126.8 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000162368 CMPK Hs.11463 333.8 PP 336.55 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000115944 COX7A2L Hs.339639 1251.1 PP 1258.85 PP ENSG00000167193 CRK Hs.461896 114.9 PP 153.9 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000071626 DAZAP1 Hs.222510 49.7 PP 130.7 PA ENSG00000108654 DDX5 Hs.279806 3052 PP 3508.95 PP ENSG00000108406 DHX40 Hs.29403 233.3 PP 196.45 PP ENSG00000128590 DNAJB9 Hs.6790 211.5 PP 433.55 PP ENSG00000156508 EEF1A1 Hs.439552 40551 PP 40470.15 PA ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000107581 EIF3S10 Hs.523299 522.9 PP 586.55 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000111145 ELK3 Hs.46523 372.1 PP 280.75 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000182944 EWSR1 Hs.374477 389.7 PP 457.25 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000173120 FBXL11 Hs.124147 237 PP 192.5 PP ENSG00000118564 FBXL5 Hs.479208 410.6 PP 319.15 PP ENSG00000178974 FBXO34 Hs.525348 246.4 PP 254.15 PP ENSG00000022267 FHL1 Hs.435369 5240 PP 3151.75 PP ENSG00000150907 FOXO1A Hs.370666 253.6 PP 140.95 PP ENSG00000143641 GALNT2 Hs.300834 321.4 PP 333.55 PP ENSG00000115806 GORASP2 Hs.431317 359.7 PP 304.85 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000112406 HECA Hs.197644 352.2 PP 377.45 PP ENSG00000100644 HIF1A Hs.509554 866.5 PP 1037.1 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000137361 HLA-E Hs.381008 1198.1 PP 595.4 PP ENSG00000029993 HMGB3 Hs.19114 309 PP 460.6 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000067829 IDH3G Hs.410197 249.2 PP 156.95 PA ENSG00000168556 ING2 Hs.107153 177 PP 151.85 PP ENSG00000116679 IVNS1ABP Hs.497183 251.6 PP 288.25 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000068697 LAPTM4A Hs.467807 1059.2 PP 1145.5 PP ENSG00000121104 LOC81558 Hs.514308 3067.5 PP 1370.7 PP ENSG00000163818 LZTFL1 Hs.30824 199 PP 253.95 PP ENSG00000173327 MAP3K11 Hs.502872 355.1 PP 326.8 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000112062 MAPK14 Hs.485233 507.4 PP 486.3 PP ENSG00000165406 8-Mar Hs.499489 295.9 PP 295.85 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000133606 MKRN1 Hs.490347 392.7 PP 350.15 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000137420 NOL7 Hs.549161 1095.5 PP 1222.05 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000124789 NUP153 Hs.121088 216.4 PP 291.8 PP ENSG00000046651 OFD1 Hs.6483 1022.7 PP 692.15 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000115421 PAPOLG Hs.387471 153.2 PP 91.25 PP ENSG00000157212 PAXIP1 Hs.443881 139.4 PP 130.7 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000067057 PFKP Hs.26010 317.5 PP 459 PP ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000100941 PNN Hs.409965 839.5 PP 617.3 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000154845 PPP4R1 Hs.464595 472.6 PP 378.85 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000100519 PSMC6 Hs.156171 143.7 PP 216.4 PP ENSG00000175354 PTPN2 Hs.123352 759.9 PP 273 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000130508 PXDN Hs.332197 280.3 PP 114.7 PA ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000111737 RAB35 Hs.524788 394.6 PP 431.2 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000175582 RAB6A Hs.503222 371.4 PP 365.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000023287 RB1CC1 Hs.196102 95.2 PP 147.45 PP ENSG00000122257 RBBP6 Hs.188553 131.2 PP 163.35 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000127870 RNF6 Hs.136885 74.1 PP 122.9 PP ENSG00000167971 RNPS1 Hs.355643 1024.8 PP 1501.95 PP ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000148484 RSU1 Hs.524161 298.8 PP 294.55 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000079332 SARA1 Hs.499960 233.7 PP 442.85 PP ENSG00000140497 SCAMP2 Hs.458917 411.8 PP 495 PP ENSG00000168385 2-Sep Hs.335057 952.7 PP 1251.1 PP ENSG00000120742 SERP1 Hs.518326 285.7 PP 343.4 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000116560 SFPQ Hs.355934 306.9 PP 689 PP ENSG00000115875 SFRS7 Hs.309090 378.7 PP 743.5 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000113558 SKP1A Hs.171626 657.2 PP 969.15 PP ENSG00000059804 SLC2A3 Hs.419240 275.9 PP 351.5 PP ENSG00000173473 SMARCC1 Hs.476179 487 PP 483.35 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000168610 STAT3 Hs.463059 401.7 PP 390.05 PP ENSG00000112079 STK38 Hs.409578 365.8 PP 304.4 PP ENSG00000108264 TADA2L Hs.500066 108 PP 97.9 PA ENSG00000152291 TGOLN2 Hs.14894 430.2 PP 542.8 PP ENSG00000106537 TM4SF13 Hs.364544 275.4 PP 526.45 PP ENSG00000102804 TSC22D1 Hs.450972 1492.8 PP 2518.9 PP ENSG00000150991 UBC Hs.520348 2138.1 PP 2607.15 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000114062 UBE3A Hs.22543 126.2 PP 89.25 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000173218 VANGL1 Hs.515130 73.8 PP 89.5 PA ENSG00000132716 WDR42A Hs.492236 195.9 PP 233.1 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000015171 ZMYND11 Hs.292265 403.3 PP 784.1 PP ENSG00000114514 ZNF148 Hs.380334 211.6 PP 226.65 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000169714 ZNF9 Hs.518249 1408.6 PP 1399.55 PP 103 ENSG00000004455 AK2 Hs.470907 303.6 PP 498.6 PP ENSG00000170776 AKAP13 Hs.459211 192.3 PP 198.75 PA ENSG00000151320 AKAP6 Hs.509083 137.8 PP 117.05 PP ENSG00000117020 AKT3 Hs.498292 246.4 PP 259.35 PP ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000153922 CHD1 Hs.519474 89.4 PP 202.95 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000129083 COPB Hs.339278 686.7 PP 1188.55 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000168036 CTNNB1 Hs.476018 343.5 PP 364.4 PP ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PP ENSG00000166266 CUL5 Hs.440320 285.8 PP 246.8 PP ENSG00000100697 DICER1 Hs.87889 176.8 PP 186.3 PP ENSG00000117505 DR1 Hs.348418 117.2 PP 188.65 PP ENSG00000104517 EDD1 Hs.492445 254.6 PP 227.15 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000063046 EIF4B Hs.512629 519.2 PP 743.85 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000155849 ELMO1 Hs.304578 367.9 PP 339.8 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000120699 EXOSC8 Hs.294041 196.9 PP 283.25 PA ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000132589 FLOT2 Hs.514038 393.4 PP 355.45 PP ENSG00000104064 GABPB2 Hs.546852 129.3 PP 183.75 PM ENSG00000100083 GGA1 Hs.499158 669.4 PP 749.65 PP ENSG00000113384 GOLPH3 Hs.408909 585.8 PP 782.9 PP ENSG00000029993 HMGB3 Hs.19114 309 PP 460.6 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PP ENSG00000169045 HNRPH1 Hs.202166 1986.4 PP 2132.6 PP ENSG00000126945 HNRPH2 Hs.278857 189.2 PP 158.45 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000165119 HNRPK Hs.449171 761 PP 1269.35 PP ENSG00000104824 HNRPL Hs.446623 1060.2 PP 889.7 PP ENSG00000125944 HNRPR Hs.373763 839.4 PP 980.1 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000120087 HOXB7 Hs.436181 110.1 PP 108.7 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000078596 ITM2A Hs.17109 325.6 PP 367.7 PP ENSG00000116679 IVNS1ABP Hs.497183 251.6 PP 288.25 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000166963 MAP1A Hs.194301 433.9 PP 321.4 PM ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000125445 MRPS7 Hs.71787 381.8 PP 338.3 PA ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000102921 N4BP1 Hs.511839 682.3 PP 668.7 PP ENSG00000149308 NPAT Hs.171061 171.1 PP 140.65 PP ENSG00000169564 PCBP1 Hs.2853 1587.4 PP 1289.35 PP ENSG00000056661 PCGF2 Hs.371617 231.6 PP 160.8 PP ENSG00000114209 PDCD10 Hs.478150 463.6 PP 560.4 PP ENSG00000145675 PIK3R1 Hs.132225 249.1 PP 181 PP ENSG00000102024 PLS3 Hs.496622 74.1 PP 110.95 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000110958 PTGES3 Hs.50425 1018.1 PP 1526.7 PP ENSG00000055917 PUM2 Hs.467824 238.6 PP 313.25 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000144580 RQCD1 Hs.148767 284.7 PP 361.25 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000085365 SCAMP1 Hs.482587 373.6 PP 392.9 PP ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000136527 SFRS10 Hs.533122 673.5 PP 894.8 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000072501 SMC1L1 Hs.211602 137.5 PP 329.1 PP ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000114520 SNX4 Hs.507243 125.1 PP 245.1 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000091640 SPAG7 Hs.90436 900.7 PP 517.9 PP ENSG00000116649 SRM Hs.76244 374.8 PP 439.2 PA ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000028839 TBPL1 Hs.486507 170.1 PP 187.95 PP ENSG00000154582 TCEB1 Hs.546305 511.7 PP 636 PP ENSG00000165169 TCTE1L Hs.446392 323 PP 369.75 PP ENSG00000101337 TM9SF4 Hs.529360 129.2 PP 121.3 PP ENSG00000076554 TPD52 Hs.368433 144.2 PP 223.7 PP ENSG00000166340 TPP1 Hs.523454 200.3 PP 229.1 PP ENSG00000143367 TUFT1 Hs.489922 173.6 PP 135.35 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000160714 UBE2Q Hs.516587 457.1 PP 377.95 PP ENSG00000153560 UBP1 Hs.118041 280.2 PP 408.6 PP ENSG00000100242 UNC84B Hs.517622 560.7 PP 333.25 PP ENSG90000101557 USP14 Hs.464416 542.5 PP 836.8 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000108828 VAT1 Hs.514199 649.7 PP 585.4 PP ENSG00000035403 VCL Hs.500101 332.1 PP 541.1 PP ENSG00000073905 VDAC1 Hs.202085 175.6 PP 289.2 PP ENSG00000100568 VTI1B Hs.144868 361.4 PP 272.7 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000010244 ZNF207 Hs.500775 918.9 PP 742.3 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 30b ENSG00000151726 ACSL1 Hs.406678 180.6 PP 193.15 PP ENSG00000136518 ACTL6A Hs.435326 84.2 PP 105.6 PP ENSG00000072110 ACTN1 Hs.509765 212.8 PP 362.35 PP ENSG00000129675 ARHGEF6 Hs.522795 1207.5 PP 815.1 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000139746 C13orf10 Hs.131715 119.8 PP 178.7 PP ENSG00000101084 C20orf24 Hs.184062 878.9 PP 1348.2 PP ENSG00000153113 CAST Hs.440961 301.7 PP 461.25 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000060138 CSDA Hs.221889 969.1 PP 2074.95 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000175215 CTDSP2 Hs.524530 1247.3 PP 976.35 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000132153 DHX30 Hs.517948 209.5 PP 193.5 PP ENSG00000092964 DPYSL2 Hs.173381 505.1 PP 495.1 PP ENSG00000142634 EFHD2 Hs.465374 292.3 PP 242.65 PA ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000157554 ERG Hs.473819 369.4 PP 298.05 PP ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000166147 FBN1 Hs.146447 195.2 PP 178.7 PP ENSG00000178974 FBXO34 Hs.525348 246.4 PP 254.15 PP ENSG00000109586 GALNT7 Hs.127407 97.2 PP 153.95 PP ENSG00000001084 GCLC Hs.271264 227.6 PP 219.2 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PA ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000078399 HOXA9 Hs.127428 739.2 PP 674 PP ENSG00000120694 HSPH1 Hs.36927 133.6 PP 614 PP ENSG00000136478 HT008 Hs.175414 443.2 PP 336.2 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000065548 LEREPO4 Hs.368598 265.5 PP 402.5 PP ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000166974 MAPRE2 Hs.532824 857.4 PP 715.5 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000089693 MLF2 Hs.524214 247.5 PP 196.75 PP ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000048991 R3HDM Hs.412462 217.6 PP 376.75 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000145715 RASA1 Hs.553501 138.8 PP 103.6 PP ENSG00000125976 RBM12 — 321.1 PP 313.35 PP ENSG00000106615 RHEB Hs.283521 943.5 PP 1172.5 PP ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000153574 RPIA Hs.469264 170.1 PP 372.1 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000085365 SCAMP1 Hs.482587 373.6 PP 392.9 PP ENSG00000121542 SEC22L2 Hs.477361 96.7 PP 82.45 PA ENSG00000122545 7-Sep Hs.191346 815 PP 1146.5 PP ENSG00000115524 SF3B1 Hs.471011 2127.6 PP 2173.9 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000059804 SLC2A3 Hs.419240 275.9 PP 351.5 PP ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000114520 SNX4 Hs.507243 125.1 PP 245.1 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000095480 SPFH1 Hs.150087 646.4 PP 689.15 PP ENSG00000101972 STAG2 Hs.496710 392 PP 375.2 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000028839 TBPL1 Hs.486507 170.1 PP 187.95 PP ENSG00000072274 TFRC Hs.529618 1858.2 PP 2010.55 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000063244 U2AF2 Hs.528007 191 PP 227.15 PP ENSG00000103275 UBE2I Hs.302903 452.9 PP 427.25 PP ENSG00000118900 UBN1 Hs.440219 138.4 PP 302.15 PP ENSG00000024048 UBR2 Hs.529925 151.4 PP 183.45 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000165280 VCP Hs.529782 278.5 PP 240.85 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP 107 ENSG00000184009 ACTG1 Hs.514581 11731 PP 14874 PP ENSG00000137845 ADAM10 Hs.172028 221.1 PP 315.55 PP ENSG00000004455 AK2 Hs.470907 303.6 PP 498.6 PP ENSG00000170776 AKAP13 Hs.459211 192.3 PP 198.75 PA ENSG00000117020 AKT3 Hs.498292 246.4 PP 259.35 PP ENSG00000177879 AP3S1 Hs.406191 647.6 PP 1020.05 PP ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000134108 ARL10C Hs.250009 578.1 PP 591.95 PP ENSG00000136950 ARPC5L Hs.132499 512.3 PP 577.15 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000171791 BCL2 Hs.150749 151.5 PP 134.45 PP ENSG00000160058 BSDC1 Hs.353454 304.8 PP 151.9 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000168175 C14orf32 Hs.437831 559.3 PP 1440.6 PP ENSG00000132424 C6orf111 Hs.520287 674.8 PP 743.75 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000198898 CAPZA2 Hs.446123 100.3 PP 305.35 PP ENSG00000142453 CARM1 Hs.371416 141.6 PP 105.7 PA ENSG00000118971 CCND2 Hs.376071 1114.1 PP 1244.6 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000135535 CD164 Hs.520313 2274.9 PP 2265.25 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000172757 CFL1 Hs.170622 1674.1 PP 3264.25 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000129083 COPB Hs.339278 686.7 PP 1188.55 PA ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000099942 CRKL Hs.5613 126.4 PP 192.1 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000133275 CSNK1G2 Hs.181390 529.8 PP 410.25 PA ENSG00000198561 CTNND1 Hs.166011 160.6 PP 172.65 PM ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000166266 CUL5 Hs.440320 285.8 PP 246.8 PP ENSG00000085788 DDHD2 Hs.434966 351.3 PP 262.9 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000139726 DENR Hs.22393 903 PP 1016.2 PP ENSG00000100697 DICER1 Hs.87889 176.8 PP 186.3 PP ENSG00000151208 DLG5 Hs.500245 73.1 PP 90.5 PP ENSG00000117505 DR1 Hs.348418 117.2 PP 188.65 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000104517 EDD1 Hs.492445 254.6 PP 227.15 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000063046 EIF4B Hs.512629 519.2 PP 743.85 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000155849 ELMO1 Hs.304578 367.9 PP 339.8 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000120699 EXOSC8 Hs.294041 196.9 PP 283.25 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000168137 FLJ10707 Hs.288164 452.5 PP 256.1 PM ENSG00000132589 FLOT2 Hs.514038 393.4 PP 355.45 PP ENSG00000125740 FOSB Hs.75678 1751.3 PP 3599.55 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000109586 GALNT7 Hs.127407 97.2 PP 153.95 PP ENSG00000135677 GNS Hs.334534 261.1 PP 248.15 PP ENSG00000147533 GOLGA7 Hs.7953 669.8 PP 592.25 PP ENSG00000113384 GOLPH3 Hs.408909 585.8 PP 782.9 PP ENSG00000091527 H41 Hs.518265 735.1 PP 1129.65 PP ENSG00000180353 HCLS1 Hs.14601 464.2 PP 503.05 PP ENSG00000128731 HERC2 Hs.434890 257.7 PP 239.3 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000169045 HNRPH1 Hs.202166 1986.4 PP 2132.6 PP ENSG00000126945 HNRPH2 Hs.278857 189.2 PP 158.45 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000104824 HNRPL Hs.446623 1060.2 PP 889.7 PP ENSG00000125944 HNRPR Hs.373763 839.4 PP 980.1 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000120075 HOXB5 Hs.149548 322 PP 238.15 PP ENSG00000120087 HOXB7 Hs.436181 110.1 PP 108.7 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000086758 HUWE1 Hs.136905 535.9 PP 503.6 PP ENSG00000171105 INSR Hs.465744 247.7 PP 292.45 PP ENSG00000078596 ITM2A Hs.17109 325.6 PP 367.7 PP ENSG00000116679 IVNS1ABP Hs.497183 251.6 PP 288.25 PP ENSG00000170852 KBTBD2 Hs.372541 412.2 PP 381.65 PP ENSG00000176407 KCMF1 Hs.345694 751.2 PP 938.3 PP ENSG00000145725 KIAA0433 Hs.212046 164.5 PP 186.45 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000114030 KPNA1 Hs.161008 121.8 PP 91.95 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000111885 MAN1A1 Hs.102788 309.1 PP 151 PP ENSG00000166963 MAP1A Hs.194301 433.9 PP 321.4 PM ENSG00000135341 MAP3K7 Hs.485968 180.7 PP 202.05 PP ENSG00000055208 MAP3K7IP2 Hs.269775 219.1 PP 142.8 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000198408 MGEA5 Hs.500842 363.7 PP 363.05 PP ENSG00000171843 MLLT3 Hs.493585 405.3 PP 334.5 PP ENSG00000123562 MORF4L2 Hs.326387 2189.8 PP 2626.1 PP ENSG00000185608 MRPL40 Hs.431307 258.6 PP 272.55 PA ENSG00000125445 MRPS7 Hs.71787 381.8 PP 338.3 PA ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000102921 N4BP1 Hs.511839 682.3 PP 668.7 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000149308 NPAT Hs.171061 171.1 PP 140.65 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000142864 PAI-RBP1 Hs.530412 337.8 PP 662.45 PP ENSG00000157654 PALM2-AKAP2 Hs.259461 181.4 PP 163.75 PP ENSG00000169564 PCBP1 Hs.2853 1587.4 PP 1289.35 PP ENSG00000056661 PCGF2 Hs.371617 231.6 PP 160.8 PP ENSG00000120265 PCMT1 Hs.279257 488.1 PP 649.4 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000114209 PDCD10 Hs.478150 463.6 PP 560.4 PP ENSG00000150593 PDCD4 Hs.232543 174.3 PP 122.55 PP ENSG00000143870 PDIA6 Hs.212102 357.6 PP 852.3 PP ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000145675 PIK3R1 Hs.132225 249.1 PP 181 PP ENSG00000137193 PIM1 Hs.81170 1021.7 PP 801.85 PP ENSG00000102024 PLS3 Hs.496622 74.1 PP 110.95 PP ENSG00000100941 PNN Hs.409965 839.5 PP 617.3 PP ENSG00000100614 PPM1A Hs.130036 197.3 PP 259.8 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000138814 PPP3CA Hs.435512 122.5 PP 205 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000110851 PRDM4 Hs.506655 188.6 PP 183.55 PP ENSG00000122862 PRG1 Hs.1908 802.8 PP 1516.65 PP ENSG00000101040 PRKCBP1 Hs.446240 305.9 PP 329.55 PP ENSG00000110958 PTGES3 Hs.50425 1018.1 PP 1526.7 PP ENSG00000055917 PUM2 Hs.467824 238.6 PP 313.25 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000111737 RAB35 Hs.524788 394.6 PP 431.2 PP ENSG00000077092 RARB Hs.436538 111.5 PP 156.85 PP ENSG00000122257 RBBP6 Hs.188553 131.2 PP 163.35 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000197676 RBM16 Hs.227602 193.8 PP 274 PP ENSG00000153250 RBMS1 Hs.470412 144.9 PP 216.05 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000144713 RPL32 Hs.265174 21137 PP 15449.05 PP ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000144580 RQCD1 Hs.148767 284.7 PP 361.25 PP ENSG00000137815 RTF1 Hs.511096 194.3 PP 256.85 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000160633 SAFB Hs.23978 376.8 PP 261.35 PP ENSG00000085365 SCAMP1 Hs.482587 373.6 PP 392.9 PP ENSG00000121892 SCC-112 Hs.331431 220.4 PP 258.2 PP ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000138802 SEC24B Hs.292472 221.9 PP 223.3 PP ENSG00000125354 6-Sep Hs.496666 335.7 PP 310.55 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000080546 SESN1 Hs.59554 235 PP 276.4 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000136527 SFRS10 Hs.533122 673.5 PP 894.8 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000112081 SFRS3 Hs.405144 884.9 PP 923.3 PP ENSG00000100650 SFRS5 Hs.166975 4459.7 PP 3466.15 PP ENSG00000080493 SLC4A4 Hs.5462 124.5 PP 268.4 PP ENSG00000073584 SMARCE1 Hs.463010 487.1 PP 524.6 PP ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000114520 SNX4 Hs.507243 125.1 PP 245.1 PP ENSG00000091640 SPAG7 Hs.90436 900.7 PP 517.9 PP ENSG00000090054 SPTLC1 Hs.90458 251.2 PP 312.95 PP ENSG00000116649 SRM Hs.76244 374.8 PP 439.2 PA ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000135090 TAOK3 — 518.8 PP 394 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000028839 TBPL1 Hs.486507 170.1 PP 187.95 PP ENSG00000154582 TCEB1 Hs.546305 511.7 PP 636 PP ENSG00000165169 TCTE1L Hs.446392 323 PP 369.75 PP ENSG00000198586 TLK1 Hs.470586 150.2 PP 117.65 PP ENSG00000198561 TMX2 Hs.279861 484.9 PP 411 PP ENSG00000076554 TPD52 Hs.368433 144.2 PP 223.7 PP ENSG00000166340 TPP1 Hs.523454 200.3 PP 229.1 PP ENSG00000067167 TRAM1 Hs.491988 573.3 PP 894.4 PP ENSG00000166326 TRIM44 Hs.192103 340.6 PP 375.85 PP ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000143367 TUFT1 Hs.489922 173.6 PP 135.35 PP ENSG00000077721 UBE2A Hs.379466 299.1 PP 400.85 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000160714 UBE2Q Hs.516587 457.1 PP 377.95 PP ENSG00000124208 UBE2V1 /// Kua- Hs.420529 504.3 PP 320.6 PP UEV ENSG00000130939 UBE4B Hs.386404 291.8 PP 387.95 PP ENSG00000153560 UBP1 Hs.118041 280.2 PP 408.6 PP ENSG00000100242 UNC84B Hs.517622 560.7 PP 333.25 PP ENSG00000101557 USP14 Hs.464416 542.5 PP 836.8 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000117533 VAMP4 Hs.6651 271.8 PP 299.3 PP ENSG00000108828 VAT1 Hs.514199 649.7 PP 585.4 PP ENSG00000035403 VCL Hs.500101 332.1 PP 541.1 PP ENSG00000069329 VPS35 Hs.447547 705.1 PP 966.5 PP ENSG00000100568 VTI1B Hs.144868 361.4 PP 272.7 PP ENSG00000084463 WBP11 Hs.524281 245.3 PP 325.4 PP ENSG00000085433 WDR47 Hs.546347 90.4 PP 116.6 PP ENSG00000109685 WHSC1 Hs.113876 239.5 PP 283.1 PP ENSG00000157954 WIPI-2 Hs.122363 680.5 PP 572.7 PP ENSG00000157954 WIPI-2 Hs.122363 265.4 PP 363.1 PP ENSG00000083896 YT521 Hs.175955 318.2 PP 505.9 PP ENSG00000128245 YWHAH Hs.226755 195 PP 195.4 PP ENSG00000134308 YWHAQ Hs.74405 922.3 PP 2337.65 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000010244 ZNF207 Hs.500775 918.9 PP 742.3 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 30c ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000136518 ACTL6A Hs.435326 84.2 PP 105.6 PP ENSG00000072110 ACTN1 Hs.509765 212.8 PP 362.35 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000139746 C13orf10 Hs.131715 119.8 PP 178.7 PP ENSG00000116489 CAPZA1 Hs.514934 766.7 PP 1165.8 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000060138 CSDA Hs.221889 969.1 PP 2074.95 PP ENSG00000103653 CSK Hs.77793 348.1 PP 217.35 PA ENSG00000175215 CTDSP2 Hs.524530 1247.3 PP 976.35 PP ENSG00000008283 CYB561 Hs.355264 72.3 PP 201.35 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000151208 DLG5 Hs.500245 73.1 PP 90.5 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000166147 FBN1 Hs.146447 195.2 PP 178.7 PP ENSG00000109586 GALNT7 Hs.127407 97.2 PP 153.95 PP ENSG00000001084 GCLC Hs.271264 227.6 PP 219.2 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PP ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000074356 HSA277841 Hs.120963 222.9 PP 150.05 PP ENSG00000144381 HSPD1 Hs.113684 2868.6 PP 5689.3 PP ENSG00000155090 KLF10 Hs.435001 348.9 PP 357.65 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000065548 LEREPO4 Hs.368598 265.5 PP 402.5 PP ENSG00000148943 LIN7C Hs.91393 87.3 PP 121.85 PP ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000166974 MAPRE2 Hs.532824 857.4 PP 715.5 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000089693 MLF2 Hs.524214 247.5 PP 196.75 PP ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000120837 NFYB Hs.84928 204.1 PP 272.85 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000112245 PTP4A1 Hs.227777 439.5 PP 431.2 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000048991 R3HDM Hs.412462 217.6 PP 376.75 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000075785 RAB7 Hs.15738 99.2 PP 107.25 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000125976 RBM12 — 321.1 PP 313.35 PP ENSG00000106615 RHEB Hs.283521 943.5 PP 1172.5 PP ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000153574 RPIA Hs.469264 170.1 PP 372.1 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000168758 SEMA4C Hs.516220 186.7 PP 157.95 PP ENSG00000122545 7-Sep Hs.191346 815 PP 1146.5 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000115875 SFRS7 Hs.309090 378.7 PP 743.5 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000059804 SLC2A3 Hs.419240 275.9 PP 351.5 PP ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000114520 SNX4 Hs.507243 125.1 PP 245.1 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000095480 SPFH1 Hs.150087 646.4 PP 689.15 PP ENSG00000101972 STAG2 Hs.496710 392 PP 375.2 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000100207 TCF20 Hs.475018 251.3 PP 281.15 PP ENSG00000144043 TEX261 Hs.516087 360.9 PP 229.45 PA ENSG00000072274 TFRC Hs.529618 1858.2 PP 2010.55 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000063244 U2AF2 Hs.528007 191 PP 227.15 PP ENSG00000103275 UBE2I Hs.302903 452.9 PP 427.25 PP ENSG00000009335 UBE3C Hs.118351 67.5 PP 175.9 PM ENSG00000118900 UBN1 Hs.440219 138.4 PP 302.15 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP 93 ENSG00000111780 15E1.2 Hs.549299 68.7 PP 68.6 PP ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000117020 AKT3 Hs.498292 246.4 PP 259.35 PP ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000137962 ARHGAP29 Hs.483238 72.2 PP 65.3 PP ENSG00000104880 ARHGEF18 Hs.465763 366 PP 254.9 PA ENSG00000054267 ARID4B Hs.533633 227 PP 252.45 PP ENSG00000111875 ASF1A Hs.292316 126.5 PP 114.6 PP ENSG00000143970 ASXL2 Hs.119815 694.8 PP 535.25 PP ENSG00000017260 ATP2C1 Hs.546361 229.1 PP 322.9 PP ENSG00000095739 BAMBI Hs.533336 207.8 PP 106.85 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000060762 BRP44L Hs.172755 387.7 PP 334.3 PP ENSG00000133639 BTG1 Hs.255935 955.9 PP 1057.95 PP ENSG00000110075 C11orf23 Hs.503022 402.6 PP 319.5 PA ENSG00000152242 C18orf25 Hs.116486 129.7 PP 130.6 PA ENSG00000141452 C18orf8 Hs.529006 232.8 PP 242.05 PP ENSG00000110888 C1QDC1 Hs.234355 291.3 PP 261.05 PP ENSG00000118971 CCND2 Hs.376071 1114.1 PP 1244.6 PP ENSG00000163660 CCNL1 Hs.4859 1082.6 PP 1052.5 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000155111 CDC2L6 Hs.193251 325 PP 341.25 PP ENSG00000123374 CDK2 Hs.19192 171.5 PP 336.45 PP ENSG00000177200 CHD9 Hs.530936 222.6 PP 263 PP ENSG00000198791 CNOT7 Hs.170553 250.3 PP 508.5 PP ENSG00000138663 COPS4 Hs.190384 331.1 PP 393.8 PA ENSG00000167193 CRK Hs.461896 114.9 PP 153.9 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000121966 CXCR4 Hs.421986 532.4 PP 1919.4 PP ENSG00000183283 DAZAP2 Hs.369761 1267.2 PP 976.7 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000108406 DHX40 Hs.29403 233.3 PP 196.45 PP ENSG00000151208 DLG5 Hs.500245 73.1 PP 90.5 PP ENSG00000105993 DNAJB6 Hs.490745 189.7 PP 348.5 PP ENSG00000074603 DPP8 Hs.458609 250.4 PP 288 PP ENSG00000092964 DPYSL2 Hs.173381 505.1 PP 495.1 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000104517 EDD1 Hs.492445 254.6 PP 227.15 PP ENSG00000156508 EEF1A1 Hs.439552 40551 PP 40470.15 PP ENSG00000149547 EI24 Hs.343911 166.1 PP 305.55 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000111145 ELK3 Hs.46523 372.1 PP 280.75 PP ENSG00000062598 ELMO2 Hs.210469 70.6 PP 59.8 PP ENSG00000050405 EPLIN Hs.525419 265.5 PP 309.7 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000173120 FBXL11 Hs.124147 237 PP 192.5 PP ENSG00000118564 FBXL5 Hs.479208 410.6 PP 319.15 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000022267 FHL1 Hs.435369 5240 PP 3151.75 PP ENSG00000168137 FLJ10707 Hs.288164 452.5 PP 256.1 PM ENSG00000111011 FLJ11021 Hs.432996 202 PP 392.6 PP ENSG00000137273 FOXF2 Hs.484423 109.9 PP 89.85 PP ENSG00000198815 FOXJ3 Hs.26023 458.7 PP 380.45 PP ENSG00000196700 GM632 Hs.551552 103.5 PP 145.05 PP ENSG00000135677 GNS Hs.334534 261.1 PP 248.15 PP ENSG00000112406 HECA Hs.197644 352.2 PP 377.45 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000096746 HNRPH3 Hs.499891 408.7 PP 635.5 PP ENSG00000105323 HNRPUL1 Hs.155218 406.9 PP 401.15 PP ENSG00000143164 IQWD1 Hs.435741 168.5 PP 156.4 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000177606 JUN Hs.525704 1300.5 PP 2286.95 PP ENSG00000170852 KBTBD2 Hs.372541 412.2 PP 381.65 PP ENSG00000114030 KPNA1 Hs.161008 121.8 PP 91.95 PP ENSG00000005893 LAMP2 Hs.496684 251.3 PP 179 PP ENSG00000068697 LAPTM4A Hs.467807 1059.2 PP 1145.5 PP ENSG00000107929 LARP5 Hs.498455 274.8 PP 203.9 PP ENSG00000172292 LASS6 Hs.506829 536.2 PP 463.8 PP ENSG00000121104 LOC81558 Hs.514308 3067.5 PP 1370.7 PP ENSG00000123684 LPGAT1 Hs.497674 106 PP 114.3 PP ENSG00000146963 LUC7L2 Hs.530118 153.5 PP 227.3 PP ENSG00000163818 LZTFL1 Hs.30824 199 PP 253.95 PP ENSG00000121579 MAK3 Hs.269528 268.8 PP 307 PP ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000173327 MAP3K11 Hs.502872 355.1 PP 326.8 PP ENSG00000197442 MAP3K5 Hs.186486 227.6 PP 272.25 PP ENSG00000104814 MAP4K1 Hs.95424 586.5 PP 231.45 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000165406 8-Mar Hs.499489 295.9 PP 295.85 PP ENSG00000038274 MAT2B Hs.54642 609.4 PP 461.9 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000133858 MGC23401 Hs.527874 291 PP 309.55 PP ENSG00000198408 MGEA5 Hs.500842 363.7 PP 363.05 PP ENSG00000133606 MKRN1 Hs.490347 392.7 PP 350.15 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000158747 NBL1 Hs.439671 370.3 PP 360.6 PA ENSG00000125356 NDUFA1 Hs.534168 2121.1 PP 1598.7 PP ENSG00000149308 NPAT Hs.171061 171.1 PP 140.65 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000091039 OSBPL8 Hs.430849 212 PP 251.65 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000185619 PCGF3 Hs.144309 192.1 PP 237.55 PP ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000110851 PRDM4 Hs.506655 188.6 PP 183.55 PP ENSG00000171862 PTEN Hs.500466 353.7 PP 334.4 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000111737 RAB35 Hs.524788 394.6 PP 431.2 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000175582 RAB6A Hs.503222 371.4 PP 365.75 PP ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000101265 RASSF2 Hs.379970 129.4 PP 203.9 PP ENSG00000023287 RB1CC1 Hs.196102 95.2 PP 147.45 PP ENSG00000102054 RBBP7 Hs.495755 942.6 PP 1356.35 PP ENSG00000103479 RBL2 Hs.513609 203.5 PP 188.25 PP ENSG00000127870 RNF6 Hs.136885 74.1 PP 122.9 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000117676 RPS6KA1 Hs.149957 288.1 PP 176.7 PA ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000198838 RYR3 Hs.369250 116.8 PP 131.8 PP ENSG00000079332 SARA1 Hs.499960 233.7 PP 442.85 PP ENSG00000140497 SCAMP2 Hs.458917 411.8 PP 495 PP ENSG00000075223 SEMA3C Hs.269109 95.2 PP 98.7 PP ENSG00000168385 2-Sep Hs.335057 952.7 PP 1251.1 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000162105 SHANK2 Hs.268726 137.1 PP 128.55 PP ENSG00000175387 SMAD2 Hs.12253 243.4 PP 321.4 PP ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000196700 SOX18 Hs.8619 1264.6 PP 2674 PP ENSG00000172845 SP3 Hs.531587 137.8 PP 293.35 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000112079 STK38 Hs.409578 365.8 PP 304.4 PP ENSG00000101945 SUV39H1 Hs.522639 267.8 PP 383.35 PP ENSG00000135090 TAOK3 — 518.8 PP 394 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000106052 TAX1BP1 Hs.34576 550 PP 486.2 PP ENSG00000163659 TIPARP Hs.12813 567.1 PP 1548.4 PP ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000166340 TPP1 Hs.523454 200.3 PP 229.1 PP ENSG00000117289 TXNIP Hs.533977 698.8 PP 1099.3 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000198833 UBE2J1 Hs.163776 342.7 PP 357.2 PP ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000173218 VANGL1 Hs.515130 73.8 PP 89.5 PA ENSG00000122958 VPS26 Hs.499925 508.7 PP 610 PP ENSG00000164924 YWHAZ Hs.492407 363.6 PP 520.8 PP ENSG00000066422 ZBTB11 Hs.301956 137.1 PP 100.65 PP ENSG00000186908 ZDHHC17 Hs.4014 123.5 PP 166.2 PP ENSG00000152518 ZFP36L2 Hs.503093 4553.7 PP 5205.6 PP ENSG00000015171 ZMYND11 Hs.292265 403.3 PP 784.1 PP ENSG00000114514 ZNF148 Hs.380334 211.6 PP 226.65 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000169155 ZNF297B Hs.355581 115.9 PP 112.4 PA 16b ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000161533 ACOX1 Hs.464137 46.2 PP 73.15 PP ENSG00000151726 ACSL1 Hs.406678 180.6 PP 193.15 PP ENSG00000138071 ACTR2 Hs.393201 343.5 PP 1110.1 PP ENSG00000023516 AKAP11 Hs.105105 88.5 PP 69.7 PP ENSG00000151320 AKAP6 Hs.509083 137.8 PP 117.05 PP ENSG00000117020 AKT3 Hs.498292 246.4 PP 259.35 PP ENSG00000107104 ANKRD15 Hs.493272 235.2 PP 131.45 PP ENSG00000142192 APP Hs.434980 154.6 PP 154.1 PP ENSG00000095139 ARCN1 Hs.33642 285 PP 317.05 PP ENSG00000168374 ARF4 Hs.148330 129 PP 157.5 PP ENSG00000134108 ARL10C Hs.250009 578.1 PP 591.95 PP ENSG00000110025 ARL2 Hs.502836 357.6 PP 283.6 PA ENSG00000147416 ATP6V1B2 Hs.295917 179.5 PP 183.85 PP ENSG00000128524 ATP6V1F Hs.78089 1146.8 PP 588.65 PM ENSG00000171791 BCL2 Hs.150749 151.5 PP 134.45 PP ENSG00000138756 BMP2K Hs.146551 239.6 PP 167.25 PP ENSG00000145741 BTF3 Hs.529798 6371.5 PP 4884.45 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000110075 C11orf23 Hs.503022 402.6 PP 319.5 PA ENSG00000168175 C14orf32 Hs.437831 559.3 PP 1440.6 PP ENSG00000031003 C5orf5 Hs.483473 256.3 PP 316.85 PP ENSG00000132424 C6orf111 Hs.520287 674.8 PP 743.75 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000135837 CAP350 Hs.413045 177.4 PP 220.9 PP ENSG00000198898 CAPZA2 Hs.446123 100.3 PP 305.35 PA ENSG00000067955 CBFB Hs.460988 719.1 PP 1032 PP ENSG00000118971 CCND2 Hs.376071 1114.1 PP 1244.6 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000135535 CD164 Hs.520313 2274.9 PP 2265.25 PP ENSG00000004897 CDC27 Hs.463295 217.6 PP 220.6 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000170779 CDCA4 Hs.34045 204.6 PP 276.95 PA ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000153922 CHD1 Hs.519474 89.4 PP 202.95 PP ENSG00000177200 CHD9 Hs.530936 222.6 PP 263 PP ENSG00000110172 CHORDC1 Hs.22857 84.8 PP 156.6 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000166200 COPS2 Hs.369614 521.2 PP 700.65 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000111269 CREBL2 Hs.13313 353.2 PP 216.25 PP ENSG00000099942 CRKL Hs.5613 126.4 PP 192.1 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000166266 CUL5 Hs.440320 285.8 PP 246.8 PP ENSG00000121966 CXCR4 Hs.421986 532.4 PP 1919.4 PP ENSG00000165659 DACH1 Hs.129452 95.1 PP 144.8 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000067048 DDX3Y Hs.99120 302.6 PP 309.6 PA ENSG00000158796 DEDD Hs.517342 203.3 PP 276 PP ENSG00000139726 DENR Hs.22393 903 PP 1016.2 PP ENSG00000082458 DLG3 Hs.522680 136.2 PP 89.45 PP ENSG00000077380 DNCI2 Hs.546250 424.1 PP 451.65 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000171570 EGLN2 Hs.515417 259 PP 194.45 PM ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000107581 EIF3S10 Hs.523299 522.9 PP 586.55 PP ENSG00000156976 EIF4A2 Hs.478553 3569 PP 6526.55 PP ENSG00000063046 EIF4B Hs.512629 519.2 PP 743.85 PP ENSG00000151247 EIF4E Hs.249718 156.7 PP 224 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000158417 EIF5B Hs.158688 101.4 PP 113.8 PP ENSG00000143420 ENSA Hs.510087 977.6 PP 1356.35 PP ENSG00000108799 EZH1 Hs.194669 211.4 PP 194.45 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000088832 FKBP1A Hs.471933 373.2 PP 520.25 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000141429 GALNT1 Hs.514806 220 PP 273.8 PP ENSG00000065135 GNAI3 Hs.73799 603.4 PP 763.55 PP ENSG00000110768 GTF2H1 Hs.523510 167.7 PP 191.7 PP ENSG00000112339 HBS1L Hs.378532 268.3 PP 299.85 PP ENSG00000172534 HCFC1 Hs.83634 146.2 PP 233.9 PA ENSG00000143321 HDGF Hs.506748 243.6 PP 858.8 PP ENSG00000181061 HIG1 Hs.7917 396.7 PP 564.55 PP ENSG00000078140 HIP2 Hs.50308 60.5 PP 68.4 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000126945 HNRPH2 Hs.278857 189.2 PP 158.45 PP ENSG00000104824 HNRPL Hs.446623 1060.2 PP 889.7 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000120087 HOXB7 Hs.436181 110.1 PP 108.7 PP ENSG00000164164 HSHIN1 Hs.270851 303.1 PP 312.65 PP ENSG00000109971 HSPA8 Hs.180414 2288 PP 5615.25 PP ENSG00000171105 INSR Hs.465744 247.7 PP 292.45 PP ENSG00000143164 IQWD1 Hs.435741 168.5 PP 156.4 PP ENSG00000008083 JARID2 Hs.269059 1015 PP 894 PP ENSG00000170852 KBTBD2 Hs.372541 412.2 PP 381.65 PP ENSG00000176407 KCMF1 Hs.345694 751.2 PP 938.3 PP ENSG00000121774 KHDRBS1 Hs.445893 1363 PP 1395.2 PP ENSG00000131149 KIAA0182 Hs.461647 273.2 PP 316.15 PP ENSG00000126775 KIAA0831 Hs.414809 254.4 PP 217.45 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000197017 LAT1-3TM Hs.444600 269.6 PP 389.55 PP /// BOLA2 /// LOC595101 ENSG00000168016 LBA1 Hs.517761 235.1 PP 174.9 PP ENSG00000120963 LOC51123 Hs.374485 636.6 PP 626.2 PP ENSG00000198799 LRIG2 Hs.448972 194.9 PP 178.65 PP ENSG00000011009 LYPLA2 /// Hs.534075 585.5 PP 486 PP LYPLA2P1 /// LOC388499 ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000169032 MAP2K1 Hs.145442 188.8 PP 162.95 PP ENSG00000047849 MAP4 Hs.517949 302.6 PP 276.5 PP ENSG00000135525 MAP7 Hs.486548 325.7 PP 390.1 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000198408 MGEA5 Hs.500842 363.7 PP 363.05 PP ENSG00000051825 MPHOSPH9 Hs.507175 261.2 PP 160.5 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000136504 MYST2 Hs.21907 331.7 PP 192.25 PP ENSG00000102921 N4BP1 Hs.511839 682.3 PP 668.7 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000167770 OTUB1 Hs.473788 266 PP 155.35 PA ENSG00000142864 PAI-RBP1 Hs.530412 337.8 PP 662.45 PP ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000168283 PCGF4 Hs.380403 254.7 PP 304.1 PP ENSG00000120265 PCMT1 Hs.279257 488.1 PP 649.4 PP ENSG00000081154 PCNP Hs.549185 281.6 PP 507.95 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000150593 PDCD4 Hs.232543 174.3 PP 122.55 PP ENSG00000143870 PDIA6 Hs.212102 357.6 PP 852.3 PP ENSG00000130024 PHF10 Hs.435933 375.2 PP 371.15 PP ENSG00000043143 PHF15 Hs.483419 234 PP 320.3 PP ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000033800 PIAS1 Hs.162458 102 PP 168.6 PP ENSG00000145675 PIK3R1 Hs.132225 249.1 PP 181 PP ENSG00000137193 PIM1 Hs.81170 1021.7 PP 801.85 PP ENSG00000118495 PLAGL1 Hs.444975 187.1 PP 357.8 PP ENSG00000052126 PLEKHA5 Hs.188614 312.4 PP 557.7 PP ENSG00000125686 PPARBP Hs.462956 187.8 PP 321.7 PP ENSG00000100614 PPM1A Hs.130036 197.3 PP 259.8 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000112498 PPP1R11 Hs.82887 484.7 PP 463.3 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000119414 PPP6C Hs.495128 297.5 PP 557.55 PP ENSG00000110851 PRDM4 Hs.506655 188.6 PP 183.55 PP ENSG00000122862 PRG1 Hs.1908 802.8 PP 1516.65 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000138069 RAB1A Hs.310645 70.8 PP 109.75 PM ENSG00000119318 RAD23B Hs.521640 156.2 PP 211.05 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000138698 RAP1GDS1 Hs.132858 169 PP 213.85 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000077092 RARB Hs.436538 111.5 PP 156.85 PP ENSG00000197676 RBM16 Hs.227602 193.8 PP 274 PP ENSG00000004534 RBM6 Hs.188879 383.9 PP 251.5 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000126858 RHOT1 Hs.462742 196.4 PP 304.85 PP ENSG00000176624 RKHD2 Hs.465144 210.8 PP 216 PP ENSG00000022840 RNF10 Hs.442798 327.5 PP 282.35 PM ENSG00000134758 RNF138 Hs.302408 186.9 PP 511.9 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000167971 RNPS1 Hs.355643 1024.8 PP 1501.95 PP ENSG00000144713 RPL32 Hs.265174 21137 PP 15449.05 PP ENSG00000130779 RSN Hs.524809 76.6 PP 58.05 PP ENSG00000137815 RTF1 Hs.511096 194.3 PP 256.85 PP ENSG00000115310 RTN4 Hs.429581 710.8 PP 1341.5 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000130066 SAT Hs.28491 972.4 PP 1889.05 PP ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000010803 SCMH1 Hs.87464 251.2 PP 190.45 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000092421 SEMA6A Hs.156967 140 PP 182.2 PP ENSG00000168385 2-Sep Hs.335057 952.7 PP 1251.1 PP ENSG00000080546 SESN1 Hs.59554 235 PP 276.4 PP ENSG00000116754 SFRS11 Hs.479693 819.9 PP 1077.55 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000161547 SFRS2 Hs.73965 3723.5 PP 4390.4 PP ENSG00000100650 SFRS5 Hs.166975 4459.7 PP 3466.15 PP ENSG00000162105 SHANK2 Hs.268726 137.1 PP 128.55 PP ENSG00000108061 SHOC2 Hs.104315 283.3 PP 262.55 PP ENSG00000196470 SIAH1 Hs.295923 216.3 PP 346.15 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000059804 SLC2A3 Hs.419240 275.9 PP 351.5 PP ENSG00000080493 SLC4A4 Hs.5462 124.5 PP 268.4 PP ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000102038 SMARCA1 Hs.152292 101.1 PP 72.95 PA ENSG00000163788 SNRK Hs.476052 320.6 PP 436.65 PP ENSG00000120833 SOCS2 Hs.485572 715.8 PP 806.65 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000147475 SPFH2 Hs.125849 125.1 PP 180.9 PP ENSG00000090054 SPTLC1 Hs.90458 251.2 PP 312.95 PP ENSG00000096063 SRPK1 Hs.443861 231.6 PP 200.5 PP ENSG00000124783 SSR1 Hs.114033 600.7 PP 686.65 PP ENSG00000167323 STIM1 Hs.501735 143.2 PP 99.7 PP ENSG00000166301 STK19 Hs.485102 527.6 PP 424 PP ENSG00000117632 STMN1 Hs.209983 546.6 PP 663.4 PP ENSG00000092201 SUPT16H Hs.213724 531.6 PP 508.3 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000008282 SYPL1 Hs.80919 157.3 PP 190.55 PP ENSG00000135090 TAOK3 — 518.8 PP 394 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000112592 TBP Hs.1100 218 PP 214.95 PP ENSG00000028839 TBPL1 Hs.486507 170.1 PP 187.95 PP ENSG00000165169 TCTE1L Hs.446392 323 PP 369.75 PP ENSG00000198586 TLK1 Hs.470586 150.2 PP 117.65 PP ENSG00000170348 TMP21 Hs.74137 293.5 PP 280.3 PA ENSG00000076554 TPD52 Hs.368433 144.2 PP 223.7 PP ENSG00000111669 TPI1 Hs.524219 1154.9 PP 1213.85 PP ENSG00000067167 TRAM1 Hs.491988 573.3 PP 894.4 PP ENSG00000054116 TRAPPC3 Hs.523131 245.5 PP 340.85 PM ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000077721 UBE2A Hs.379466 299.1 PP 400.85 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000170142 UBE2E1 Hs.164853 318.4 PP 488.3 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000103275 UBE2I Hs.302903 452.9 PP 427.25 PP ENSG00000198833 UBE2J1 Hs.163776 342.7 PP 357.2 PP ENSG00000160714 UBE2Q Hs.516587 457.1 PP 377.95 PP ENSG00000124208 UBE2V1 /// Hs.420529 504.3 PP 320.6 PP Kua-UEV ENSG00000130939 UBE4B Hs.386404 291.8 PP 387.95 PP ENSG00000152484 USP12 Hs.42400 170.4 PP 158.75 PP ENSG00000101557 USP14 Hs.464416 542.5 PP 836.8 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000170832 USP32 Hs.132868 120.2 PP 118.35 PP ENSG00000049245 VAMP3 Hs.66708 730.1 PP 588.5 PP ENSG00000118640 VAMP8 Hs.534373 891.4 PP 1443.1 PP ENSG00000101558 VAPA Hs.165195 1051.8 PP 1198.45 PP ENSG00000108828 VAT1 Hs.514199 649.7 PP 585.4 PP ENSG00000167987 VPS37C Hs.523715 163.6 PP 123.15 PA ENSG00000143952 VPS54 Hs.48499 187.9 PP 151.5 PP ENSG00000100568 VTI1B Hs.144868 361.4 PP 272.7 PP ENSG00000084463 WBP11 Hs.524281 245.3 PP 325.4 PP ENSG00000085433 WDR47 Hs.546347 90.4 PP 116.6 PP ENSG00000157954 WIPI-2 Hs.122363 680.5 PP 572.7 PP ENSG00000109046 WSB1 Hs.446017 679.3 PP 880.75 PP ENSG00000115254 XAB1 Hs.18259 544.2 PP 566.2 PP ENSG00000083896 YT521 Hs.175955 318.2 PP 505.9 PP ENSG00000108953 YWHAE Hs.513851 328.6 PP 424.95 PP ENSG00000128245 YWHAH Hs.226755 195 PP 195.4 PP ENSG00000134308 YWHAQ Hs.74405 922.3 PP 2337.65 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000086666 ZA20D3 Hs.306329 735.1 PP 517.75 PP ENSG00000186908 ZDHHC17 Hs.4014 123.5 PP 166.2 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000149182 ZNF289 Hs.436204 600.4 PP 330.95 PP ENSG00000119725 ZNF410 Hs.270869 164.4 PP 257.1 PP ENSG00000036549 ZZZ3 Hs.480506 125 PP 189.7 PP 10a ENSG00000165029 ABCA1 Hs.429294 175.1 PP 156.5 PP ENSG00000184009 ACTG1 Hs.514581 11731 PP 14874 PP ENSG00000172493 AFF1 Hs.480190 480.6 PP 776.35 PP ENSG00000062725 APPBP2 Hs.84084 106.4 PP 116.15 PA ENSG00000177479 ARIH2 Hs.241558 296.7 PP 352.5 PP ENSG00000171456 ASXL1 Hs.374043 275.6 PP 307.25 PP ENSG00000095739 BAMBI Hs.533336 207.8 PP 106.85 PP ENSG00000163444 C1orf37 Hs.497443 290.5 PP 291.25 PP ENSG00000136932 C9orf156 Hs.9196 133.4 PP 159.1 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000167193 CRK Hs.461896 114.9 PP 153.9 PP ENSG00000060138 CSDA Hs.221889 969.1 PP 2074.95 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000036257 CUL3 Hs.372286 554.5 PP 473.25 PP ENSG00000071626 DAZAP1 Hs.222510 49.7 PP 130.7 PA ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000161202 DVL3 Hs.388116 134.8 PP 206.95 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000170522 ELOVL6 Hs.412939 96.5 PP 156.45 PP ENSG00000168137 FLJ10707 Hs.288164 452.5 PP 256.1 PM ENSG00000141429 GALNT1 Hs.514806 220 PP 273.8 PP ENSG00000107485 GATA3 Hs.524134 170 PP 187.35 PP ENSG00000159592 GPBP1L1 Hs.238432 275.7 PP 300.05 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000110768 GTF2H1 Hs.523510 167.7 PP 191.7 PA ENSG00000077809 GTF2I /// Hs.520459 325.7 PP 556 PP GTF2IP1 ENSG00000103657 HERC1 Hs.210385 186.9 PP 236.05 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000138668 HNRPD Hs.480073 785.7 PP 1067.15 PP ENSG00000165119 HNRPK Hs.449171 761 PP 1269.35 PP ENSG00000126814 KIAA1393 Hs.380159 1228.6 PP 1731.35 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000120963 LOC51123 Hs.374485 636.6 PP 626.2 PP ENSG00000124831 LRRFIP1 Hs.471779 429.8 PP 408.25 PP ENSG00000135341 MAP3K7 Hs.485968 180.7 PP 202.05 PP ENSG00000047849 MAP4 Hs.517949 302.6 PP 276.5 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000134046 MBD2 Hs.25674 271.8 PP 193.25 PP ENSG00000125445 MRPS7 Hs.71787 381.8 PP 338.3 PA ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000198646 NCOA6 Hs.368971 334.7 PP 445.5 PP ENSG00000196498 NCOR2 Hs.137510 340.6 PP 374.05 PP ENSG00000147140 NONO Hs.533282 2434.4 PP 2382.1 PP ENSG00000125686 PPARBP Hs.462956 187.8 PP 321.7 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000171862 PTEN Hs.500466 353.7 PP 334.4 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000055917 PUM2 Hs.467824 238.6 PP 313.25 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000023287 RB1CC1 Hs.196102 95.2 PP 147.45 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000138760 SCARB2 Hs.349656 81.4 PP 116.15 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000134294 SLC38A2 Hs.221847 634.3 PP 1026.55 PP ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000173473 SMARCC1 Hs.476179 487 PP 483.35 PP ENSG00000114520 SNX4 Hs.507243 125.1 PP 245.1 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000008294 SPAG9 Hs.463439 180.3 PP 209.9 PP ENSG00000113140 SPARC Hs.111779 427 PP 408.4 PP ENSG00000102572 STK24 Hs.508514 958.4 PP 1363.75 PP ENSG00000143367 TUFT1 Hs.489922 173.6 PP 135.35 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000132388 UBE2G1 Hs.462035 272.5 PP 373.45 PP ENSG00000015171 ZMYND11 Hs.292265 403.3 PP 784.1 PP 16a see 16b 181a Ensemble Gene PBSC ID Gene Symbol Unigene RFU BM RFU ENSG00000114770 ABCC5 Hs.368563 373.4 322.1 ENSG00000151726 ACSL1 Hs.406678 180.6 193.15 ENSG00000173020 ADRBK1 Hs.83636 706 549.3 ENSG00000172493 AFF1 Hs.480190 480.6 776.35 ENSG00000168448 AGPAT1 Hs.409230 228.5 163.65 ENSG00000151320 AKAP6 Hs.509083 137.8 117.05 ENSG00000117020 AKT3 Hs.498292 246.4 259.35 ENSG00000107104 ANKRD15 Hs.493272 235.2 131.45 ENSG00000084234 APLP2 Hs.370247 1126.7 668.55 ENSG00000062725 APPBP2 Hs.84084 106.4 116.15 ENSG00000134287 ARF3 Hs.119177 302.8 475.75 ENSG00000177479 ARIH2 Hs.241558 296.7 352.5 ENSG00000138175 ARL3 Hs.182215 285.9 225.1 ENSG00000143153 ATP1B1 Hs.291196 132.4 245.55 ENSG00000174437 ATP2A2 Hs.506759 203.5 255.4 ENSG00000119866 BCL11A Hs.370549 363.1 387.8 ENSG00000171791 BCL2 Hs.150749 151.5 134.45 ENSG00000029363 BCLAF1 Hs.486542 659.8 1252.25 ENSG00000134107 BHLHB2 Hs.171825 482.8 341.5 ENSG00000181915 C10orf22 Hs.99821 226.3 203.45 ENSG00000139746 C13orf10 Hs.131715 119.8 178.7 ENSG00000163875 C1orf149 Hs.17118 322.9 274.45 ENSG00000117616 C1orf63 Hs.259412 1202.1 1000.85 ENSG00000031003 C5orf5 Hs.483473 256.3 316.85 ENSG00000132424 C6orf111 Hs.520287 674.8 743.75 ENSG00000112308 C6orf62 Hs.519930 330.6 509.45 ENSG00000074410 CA12 Hs.210995 125.1 133.8 ENSG00000135932 CAB39 Hs.471593 527.9 637.3 ENSG00000168564 CARF Hs.32922 72.4 130 ENSG00000142453 CARM1 Hs.371416 141.6 105.7 ENSG00000110619 CARS Hs.274873 822.3 683.8 ENSG00000110848 CD69 Hs.208854 1631.5 1082.1 ENSG00000114331 CENTB2 Hs.478746 117.5 82.45 ENSG00000163320 CGGBP1 Hs.444818 693.4 680 ENSG00000177200 CHD9 Hs.530936 222.6 263 ENSG00000111596 CNOT2 Hs.133350 431.4 399.2 ENSG00000108848 CROP Hs.130293 2166.4 1637.55 ENSG00000198561 CTNND1 Hs.166011 160.6 172.65 ENSG00000149187 CUGBP1 Hs.530727 332.5 326.7 ENSG00000048740 CUGBP2 Hs.309288 159.6 334.5 ENSG00000036257 CUL3 Hs.372286 554.5 473.25 ENSG00000121966 CXCR4 Hs.421986 532.4 1919.4 ENSG00000183283 DAZAP2 Hs.369761 1267.2 976.7 ENSG00000124487 DDX3X Hs.380774 769.8 1229 ENSG00000067048 DDX3Y Hs.99120 302.6 309.6 ENSG00000136986 DERL1 Hs.241576 223 240.65 ENSG00000092964 DPYSL2 Hs.173381 505.1 495.1 ENSG00000143507 DUSP10 Hs.497822 328.9 371.8 ENSG00000139318 DUSP6 Hs.298654 166.6 316.85 ENSG00000120738 EGR1 Hs.326035 128.6 290.15 ENSG00000092847 EIF2C1 Hs.22867 292.5 296.95 ENSG00000123908 EIF2C2 Hs.449415 150.2 115.85 ENSG00000156976 EIF4A2 Hs.478553 3569 6526.55 ENSG00000132507 EIF5A Hs.534314 1102.8 2858.65 ENSG00000109381 ELF2 Hs.260903 150.8 152.4 ENSG00000120616 EPC1 Hs.167805 148.9 88.7 ENSG00000157554 ERG Hs.473819 369.4 298.05 ENSG00000120705 ETF1 Hs.483494 253.8 461.55 ENSG00000139146 FAM60A Hs.505154 598.1 788 ENSG00000138081 FBXO11 Hs.553547 155.7 259.35 ENSG00000143756 FBXO28 Hs.64691 106.1 70.5 ENSG00000196504 FNBP3 Hs.298735 158.7 311.55 ENSG00000170345 FOS Hs.25647 1254.3 1832.65 ENSG00000114861 FOXP1 Hs.431498 322.7 410.3 ENSG00000138757 G3BP2 Hs.303676 242.8 428.55 ENSG00000165219 GAPVD1 Hs.495134 250 262.35 ENSG00000165678 GHITM Hs.352656 765.3 729.1 ENSG00000115419 GLS Hs.116448 217.6 242.2 ENSG00000127955 GNAI1 Hs.134587 104.9 139.15 ENSG00000106070 GRB10 Hs.164060 550.7 574.15 ENSG00000103342 GSPT1 Hs.528780 356.7 369.6 ENSG00000166503 HDGFRP3 Hs.513954 139.2 156 ENSG00000112406 HECA Hs.197644 352.2 377.45 ENSG00000163349 HIPK1 Hs.532363 347.7 488.5 ENSG00000189403 HMGB1 Hs.434102 500.1 602.95 ENSG00000164104 HMGB2 Hs.434953 855.9 2145.45 ENSG00000177733 HNRPA0 Hs.96996 655 723.4 ENSG00000169045 HNRPH1 Hs.202166 1986.4 2132.6 ENSG00000096746 HNRPH3 Hs.499891 408.7 635.5 ENSG00000165119 HNRPK Hs.449171 761 1269.35 ENSG00000120075 HOXB5 Hs.149548 322 238.15 ENSG00000173744 HRB Hs.443507 202.6 405.7 ENSG00000164164 HSHIN1 Hs.270851 303.1 312.65 ENSG00000044574 HSPA5 Hs.522394 1536.9 3296.1 ENSG00000129351 ILF3 Hs.465885 191 302.25 ENSG00000068383 INPP5A Hs.523360 302.3 279.95 ENSG00000148384 INPP5E Hs.120998 206.1 242.45 ENSG00000145703 IQGAP2 Hs.291030 537.8 457.9 ENSG00000121774 KHDRBS1 Hs.445893 1363 1395.2 ENSG00000131149 KIAA0182 Hs.461647 273.2 316.15 ENSG00000145725 KIAA0433 Hs.212046 164.5 186.45 ENSG00000067082 KLF6 Hs.285313 684.3 579.85 ENSG00000114030 KPNA1 Hs.161008 121.8 91.95 ENSG00000168016 LBA1 Hs.517761 235.1 174.9 ENSG00000143815 LBR Hs.435166 1166 1807.35 ENSG00000148943 LIN7C Hs.91393 87.3 121.85 ENSG00000124831 LRRFIP1 Hs.471779 429.8 408.25 ENSG00000121579 MAK3 Hs.269528 268.8 307 ENSG00000166963 MAP1A Hs.194301 433.9 321.4 ENSG00000055208 MAP3K7IP2 Hs.269775 219.1 142.8 ENSG00000145495 6-Mar Hs.432862 597.3 536.05 ENSG00000175130 MARCKSL1 Hs.75061 314.8 265.6 ENSG00000168906 MAT2A Hs.516157 1011.4 738.6 ENSG00000164024 METAP1 Hs.480364 351.6 422.25 ENSG00000168282 MGAT2 Hs.93338 130.6 123.5 ENSG00000133606 MKRN1 Hs.490347 392.7 350.15 ENSG00000171843 MLLT3 Hs.493585 405.3 334.5 ENSG00000185787 MORF4L1 Hs.374503 3350.8 4457.05 ENSG00000123562 MORF4L2 Hs.326387 2189.8 2626.1 ENSG00000101928 MOSPD1 Hs.378505 121.1 171.3 ENSG00000005810 MYCBP2 Hs.151411 187 643.55 ENSG00000133026 MYH10 Hs.16355 375.1 362.5 ENSG00000136504 MYST2 Hs.21907 331.7 192.25 ENSG00000138386 NAB1 Hs.107474 187.9 203.9 ENSG00000131507 NDFIP1 Hs.9788 112 90.45 ENSG00000137420 NOL7 Hs.549161 1095.5 1222.05 ENSG00000181163 NPM1 Hs.519452 8905.6 11897.7 ENSG00000153234 NR4A2 Hs.165258 124.6 242.85 ENSG00000180530 NRIP1 Hs.155017 842 914.85 ENSG00000035681 NSMAF Hs.372000 517.1 517.75 ENSG00000124789 NUP153 Hs.121088 216.4 291.8 ENSG00000115758 ODC1 Hs.467701 843.3 1634.7 ENSG00000147162 OGT Hs.405410 165.1 183.6 ENSG00000182606 OIP106 Hs.535711 319.3 255.5 ENSG00000091039 OSBPL8 Hs.430849 212 251.65 ENSG00000100836 PABPN1 Hs.117176 758.2 790.85 ENSG00000145730 PAM Hs.369430 187.3 178.45 ENSG00000115421 PAPOLG Hs.387471 153.2 91.25 ENSG00000056661 PCGF2 Hs.371617 231.6 160.8 ENSG00000081154 PCNP Hs.549185 281.6 507.95 ENSG00000059758 PCTK2 Hs.506415 118.3 220.9 ENSG00000114209 PDCD10 Hs.478150 463.6 560.4 ENSG00000150593 PDCD4 Hs.232543 174.3 122.55 ENSG00000143870 PDIA6 Hs.212102 357.6 852.3 ENSG00000197329 PELI1 Hs.7886 83.3 154.5 ENSG00000132326 PER2 Hs.58756 162.6 308.65 ENSG00000043143 PHF15 Hs.483419 234 320.3 ENSG00000118482 PHF3 Hs.348921 260 268.9 ENSG00000073921 PICALM Hs.163893 357.3 315.6 ENSG00000104886 PLEKHJ1 Hs.501353 436 272.7 ENSG00000102024 PLS3 Hs.496622 74.1 110.95 ENSG00000136040 PLXNC1 Hs.551522 354.6 387.1 ENSG00000112941 POLS Hs.481542 355.5 367.35 ENSG00000138032 PPM1B Hs.416769 79.1 82.15 ENSG00000163806 PPP1CB Hs.468018 65.7 135.05 ENSG00000197746 PSAP Hs.523004 1015.2 647.25 ENSG00000125818 PSMF1 Hs.471917 254.5 259.45 ENSG00000117569 PTBP2 Hs.269895 183 160.15 ENSG00000134644 PUM1 Hs.281707 378.4 422.3 ENSG00000185129 PURA Hs.443121 149.5 224.95 ENSG00000112531 QKI Hs.510324 284.1 564.45 ENSG00000103769 RAB11A Hs.321541 1087.7 1020.15 ENSG00000119396 RAB14 Hs.371563 140.5 198.15 ENSG00000175582 RAB6A Hs.503222 371.4 365.75 ENSG00000164754 RAD21 Hs.81848 281.3 414.9 ENSG00000108175 RAI17 Hs.193118 574.3 778.8 ENSG00000132341 RAN Hs.10842 1434.8 2597 ENSG00000065150 RANBP5 Hs.513057 123.7 118.85 ENSG00000010017 RANBP9 Hs.306242 381.3 489.95 ENSG00000127314 RAP1B Hs.369920 1093.1 1537.75 ENSG00000138698 RAP1GDS1 Hs.132858 169 213.85 ENSG00000109756 RAPGEF2 Hs.113912 394.9 551.95 ENSG00000102054 RBBP7 Hs.495755 942.6 1356.35 ENSG00000086589 RBM22 Hs.202023 339.1 441.85 ENSG00000119707 RBM25 Hs.531106 231.5 319.9 ENSG00000168214 RBPSUH Hs.479396 79.3 100.35 ENSG00000089902 RCOR1 Hs.510521 118.3 144.05 ENSG00000176624 RKHD2 Hs.465144 210.8 216 ENSG00000170633 RNF34 Hs.292804 424.6 385.65 ENSG00000043093 RP42 Hs.104613 236.5 204.45 ENSG00000130779 RSN Hs.524809 76.6 58.05 ENSG00000137815 RTF1 Hs.511096 194.3 256.85 ENSG00000159216 RUNX1 Hs.149261 108.8 211.2 ENSG00000163602 RYBP Hs.7910 398 462.8 ENSG00000079332 SARA1 Hs.499960 233.7 442.85 ENSG00000151967 SCHIP1 Hs.134665 497 417.95 ENSG00000156642 SDFR1 Hs.187866 169.4 193.05 ENSG00000168758 SEMA4C Hs.516220 186.7 157.95 ENSG00000179833 SERTAD2 Hs.77293 498.4 556.2 ENSG00000096717 SIRT1 Hs.369779 133.8 124.9 ENSG00000165646 SLC18A2 Hs.369009 271.3 225.6 ENSG00000147454 SLC25A37 Hs.122514 103 86.95 ENSG00000059804 SLC2A3 Hs.419240 275.9 351.5 ENSG00000134294 SLC38A2 Hs.221847 634.3 1026.55 ENSG00000112305 SMAP1 Hs.485717 205.2 129.15 ENSG00000077147 SMBP Hs.500674 358.3 250.05 ENSG00000159140 SON Hs.517262 408.8 467.15 ENSG00000115904 SOS1 Hs.278733 144 169.4 ENSG00000067066 SP100 Hs.369056 171.3 158.85 ENSG00000091640 SPAG7 Hs.90436 900.7 517.9 ENSG00000135250 SRPK2 Hs.285197 106.2 118.7 ENSG00000198648 STK39 Hs.276271 129.8 111.35 ENSG00000117632 STMN1 Hs.209983 546.6 663.4 ENSG00000168952 STXBP6 Hs.508958 152.6 218.55 ENSG00000008282 SYPL1 Hs.80919 157.3 190.55 ENSG00000120948 TARDBP Hs.300624 735 992.75 ENSG00000028839 TBPL1 Hs.486507 170.1 187.95 ENSG00000113649 TCERG1 Hs.443465 196.5 257.25 ENSG00000136205 TENS1 Hs.520814 443.4 221.15 ENSG00000198176 TFDP1 Hs.79353 156.5 362.8 ENSG00000198561 TMX2 Hs.279861 484.9 411 ENSG00000166598 TRA1 Hs.192374 151 339.35 ENSG00000165699 TSC1 Hs.370854 232.7 242.3 ENSG00000119048 UBE2B Hs.385986 335 417.45 ENSG00000160714 UBE2Q Hs.516587 457.1 377.95 ENSG00000124208 UBE2V1 /// Kua- Hs.420529 504.3 320.6 UEV ENSG00000009335 UBE3C Hs.118351 67.5 175.9 ENSG00000153560 UBP1 Hs.118041 280.2 408.6 ENSG00000135655 USP15 Hs.434951 197.3 160.35 ENSG00000077254 USP33 Hs.480597 228.7 299.75 ENSG00000108828 VAT1 Hs.514199 649.7 585.4 ENSG00000144560 VGLL4 Hs.373959 299.7 175.6 ENSG00000109046 WSB1 Hs.446017 679.3 880.75 ENSG00000083896 YT521 Hs.175955 318.2 505.9 ENSG00000100811 YY1 Hs.388927 539.7 740.2 ENSG00000107372 ZA20D2 Hs.406096 967.2 1262.9 ENSG00000086666 ZA20D3 Hs.306329 735.1 517.75 ENSG00000058673 ZC3H11A Hs.532399 665.7 989.4 ENSG00000153786 ZDHHC7 Hs.461610 713.7 620.1 ENSG00000152518 ZFP36L2 Hs.503093 4553.7 5205.6 ENSG00000170949 ZNF160 Hs.467236 1056.4 1016.85 ENSG00000179456 ZNF238 Hs.69997 235.7 241.8 Ensemble Gene PBSC PBSC BM ID Gene Symbol Unigene RFU Flags BM RFU Flags 193 ENSG00000161203 AP2M1 Hs.518460 687.4 PP 387.65 PA ENSG00000108561 C1QBP Hs.553487 302.1 PP 421.75 PP ENSG00000104327 CALB1 Hs.65425 79.6 PP 42.05 PA ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000075711 DLG1 Hs.292549 327.5 PP 426.8 PP ENSG00000086061 DNAJA1 Hs.445203 1073.8 PP 1437.15 PP ENSG00000120699 EXOSC8 Hs.294041 196.9 PP 283.25 PP ENSG00000179115 FARSLA Hs.23111 250.6 PP 414.1 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000153487 ING1 Hs.46700 247.1 PP 176.1 PA ENSG00000068383 INPP5A Hs.523360 302.3 PP 279.95 PP ENSG00000135387 M11S1 Hs.471818 464.9 PP 451.45 PP ENSG00000125952 MAX Hs.285354 1178.7 PP 1480.1 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000116044 NFE2L2 Hs.155396 181.2 PP 280.9 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000169564 PCBP1 Hs.2853 1587.4 PP 1289.35 PP ENSG00000056661 PCGF2 Hs.371617 231.6 PP 160.8 PP ENSG00000162734 PEA15 Hs.517216 180.3 PP 156.05 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000104762 PPP2R2A Hs.146339 331.7 PP 299.6 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000056687 RGL2 Hs.509622 340.5 PP 232.1 PA ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000166301 STK19 Hs.485102 527.6 PP 424 PA ENSG00000117632 STMN1 Hs.209983 546.6 PP 663.4 PP ENSG00000124222 STX16 Hs.307913 474.2 PP 228.9 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000166326 TRIM44 Hs.192103 340.6 PP 375.85 PP ENSG00000119801 YPEL5 Hs.515890 1377.9 PP 1469.25 PP 24 ENSG00000148700 ADD3 Hs.501012 258.6 PP 299.05 PP ENSG00000168374 ARF4 Hs.148330 129 PP 157.5 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000095564 BTAF1 Hs.500526 220.4 PP 333.3 PP ENSG00000082153 BZW1 Hs.355983 536.1 PP 794.1 PP ENSG00000181915 C10orf22 Hs.99821 226.3 PP 203.45 PP ENSG00000179218 CALR Hs.515162 398.5 PP 1371.55 PP ENSG00000118816 CCNI Hs.518827 913.5 PP 1344.25 PP ENSG00000163468 CCT3 Hs.491494 1044.4 PP 1212.8 PP ENSG00000135535 CD164 Hs.520313 2274.9 PP 2265.25 PP ENSG00000111276 CDKN1B Hs.238990 333.5 PP 374.65 PP ENSG00000143126 CELSR2 Hs.57652 215.4 PP 148.65 PP ENSG00000109572 CLCN3 Hs.481186 244.9 PP 248.15 PP ENSG00000118260 CREB1 Hs.516646 122.9 PP 230.35 PP ENSG00000111269 CREBL2 Hs.13313 353.2 PP 216.25 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000165659 DACH1 Hs.129452 95.1 PP 144.8 PP ENSG00000132153 DHX30 Hs.517948 209.5 PP 193.5 PP ENSG00000082458 DLG3 Hs.522680 136.2 PP 89.45 PP ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000105216 FAM61A Hs.407368 242.1 PP 291.3 PP ENSG00000118564 FBXL5 Hs.479208 410.6 PP 319.15 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PA ENSG00000068078 FGFR3 Hs.1420 185.4 PP 135.5 PA ENSG00000175606 FLJ20533 Hs.106650 420.6 PP 454.55 PP ENSG00000034713 GABARAPL2 Hs.461379 952 PP 625.75 PP ENSG00000188486 H2AFX Hs.477879 97.1 PP 383.1 PA ENSG00000091527 H41 Hs.518265 735.1 PP 1129.65 PP ENSG00000010818 HIVEP2 Hs.510172 149.6 PP 157.9 PP ENSG00000106004 HOXA5 Hs.37034 507.2 PP 499.3 PP ENSG00000074356 HSA277841 Hs.120963 222.9 PP 150.05 PP ENSG00000068745 IHPK2 Hs.476221 648.7 PP 414.15 PP ENSG00000105135 ILVBL Hs.78880 243.6 PP 297 PP ENSG00000186480 INSIG1 Hs.520819 196.9 PP 304.7 PP ENSG00000140575 IQGAP1 Hs.430551 113 PP 199.1 PP ENSG00000136240 KDELR2 Hs.520210 123.7 PP 161.05 PM ENSG00000088247 KHSRP Hs.91142 163.3 PP 288.9 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000102897 LOC57149 Hs.185489 370.6 PP 303.95 PP ENSG00000077454 LRCH4 Hs.125742 1133.8 PP 712.75 PP ENSG00000011009 LYPLA2 /// Hs.534075 585.5 PP 486 PP LYPLA2P1 /// LOC388499 ENSG00000135387 M11S1 Hs.471818 464.9 PP 451.45 PP ENSG00000143033 M96 Hs.31016 147.6 PP 141.55 PP ENSG00000161021 MAML1 Hs.484349 331.3 PP 280.35 PP ENSG00000166963 MAP1A Hs.194301 433.9 PP 321.4 PM ENSG00000100030 MAPK1 Hs.431850 274.3 PP 145 PP ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000166986 MARS Hs.355867 460.7 PP 614.95 PP ENSG00000015479 MATR3 Hs.268939 252.4 PP 382.35 PP ENSG00000133895 MEN1 Hs.423348 113.9 PP 175.85 PP ENSG00000079277 MKNK1 Hs.371594 233.1 PP 239.5 PP ENSG00000143033 MTF2 Hs.31016 559 PP 738.65 PP ENSG00000118513 MYB Hs.531941 1984.2 PP 2558.15 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000133026 MYH10 Hs.16355 375.1 PP 362.5 PP ENSG00000115053 NCL Hs.79110 1203.2 PP 2603.05 PP ENSG00000166579 NDEL1 Hs.372123 218.3 PP 187.2 PP ENSG00000173848 NET1 Hs.25155 264.1 PP 310.45 PP ENSG00000116044 NFE2L2 Hs.155396 181.2 PP 280.9 PP ENSG00000158793 NIT1 Hs.146406 409.1 PP 328.05 PP ENSG00000149308 NPAT Hs.171061 171.1 PP 140.65 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000141447 OSBPL1A Hs.370725 204.6 PP 211.75 PP ENSG00000091039 OSBPL8 Hs.430849 212 PP 251.65 PP ENSG00000102225 PCTK1 Hs.496068 135 PP 88.45 PA ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000137193 PIM1 Hs.81170 1021.7 PP 801.85 PP ENSG00000102096 PIM2 Hs.496096 251.9 PP 288.3 PM ENSG00000152952 PLOD2 Hs.477866 92.1 PP 128.6 PP ENSG00000100034 PPM1F Hs.112728 179.2 PP 108.2 PA ENSG00000197746 PSAP Hs.523004 1015.2 PP 647.25 PP ENSG00000106588 PSMA2 Hs.333786 204.2 PP 240.35 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000171522 PTGER4 Hs.199248 531.8 PP 514.8 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000116473 RAP1A Hs.190334 217.2 PP 367.75 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000145715 RASA1 Hs.553501 138.8 PP 103.6 PP ENSG00000056687 RGL2 Hs.509622 340.5 PP 232.1 PA ENSG00000123091 RNF11 Hs.309641 125.3 PP 161.5 PP ENSG00000134758 RNF138 Hs.302408 186.9 PP 511.9 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000136715 SAP130 Hs.32995 229 PP 246.4 PP ENSG00000140497 SCAMP2 Hs.458917 411.8 PP 495 PP ENSG00000140612 SEC11L1 Hs.9534 1920.5 PP 2226.35 PP ENSG00000092421 SEMA6A Hs.156967 140 PP 182.2 PP ENSG00000080546 SESN1 Hs.59554 235 PP 276.4 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000182199 SHMT2 Hs.75069 828.3 PP 865.1 PP ENSG00000173473 SMARCC1 Hs.476179 487 PP 483.35 PP ENSG00000184602 SNN Hs.459952 234.4 PP 239.3 PP ENSG00000100596 SPTLC2 Hs.435661 433.7 PP 462.25 PP ENSG00000120948 TARDBP Hs.300624 735 PP 992.75 PP ENSG00000006638 TBXA2R Hs.442530 258.9 PP 217.8 PP ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000173726 TOMM20 Hs.533192 656.5 PP 888.45 PP ENSG00000198900 TOP1 Hs.472737 315.5 PP 468.35 PP ENSG00000077097 TOP2B Hs.475733 592.4 PP 806 PP ENSG00000111669 TPI1 Hs.524219 1154.9 PP 1213.85 PP ENSG00000140416 TPM1 Hs.133892 394.4 PP 661.4 PP ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000131508 UBE2D2 Hs.108332 400.1 PP 512.05 PP ENSG00000114062 UBE3A Hs.22543 456.9 PP 470.75 PP ENSG00000118900 UBN1 Hs.440219 138.4 PP 302.15 PP ENSG00000141968 VAV1 Hs.116237 535.2 PP 272.75 PA ENSG00000100897 WDR23 Hs.525251 455.1 PP 382.25 PP ENSG00000082898 XPO1 Hs.370770 994.7 PP 1393.85 PP ENSG00000128245 YWHAH Hs.226755 195 PP 195.4 PP ENSG00000147130 ZNF261 Hs.522684 475.8 PP 232.55 PP 181b ENSG00000168374 ARF4 Hs.148330 129 PP 157.5 PP ENSG00000143153 ATP1B1 Hs.291196 132.4 PP 245.55 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000134107 BHLHB2 Hs.171825 482.8 PP 341.5 PP ENSG00000168564 CARF Hs.32922 72.4 PP 130 PP ENSG00000113328 CCNG1 Hs.79101 1025 PP 737.8 PP ENSG00000141367 CLTC Hs.491351 1169 PP 1399.6 PP ENSG00000111596 CNOT2 Hs.133350 431.4 PP 399.2 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000149187 CUGBP1 Hs.530727 383 PP 596.3 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000172115 CYCS Hs.437060 791.3 PP 2063.1 PP ENSG00000168209 DDIT4 Hs.523012 736.8 PP 535.85 PP ENSG00000109606 DHX15 Hs.5683 1219.8 PP 1620.75 PP ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000132507 EIF5A Hs.534314 1102.8 PP 2858.65 PP ENSG00000120616 EPC1 Hs.167805 148.9 PP 88.7 PA ENSG00000120705 ETF1 Hs.483494 253.8 PP 461.55 PP ENSG00000139146 FAM60A Hs.505154 598.1 PP 788 PP ENSG00000138081 FBXO11 Hs.553547 155.7 PP 259.35 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000103342 GSPT1 Hs.528780 356.7 PP 369.6 PP ENSG00000170144 HNRPA3 Hs.516539 375.5 PP 558.6 PP ENSG00000126945 HNRPH2 Hs.278857 189.2 PP 158.45 PP ENSG00000044574 HSPA5 Hs.522394 1536.9 PP 3296.1 PA ENSG00000142856 ITGB3BP Hs.166539 234.8 PP 372 PP ENSG00000078596 ITM2A Hs.17109 325.6 PP 367.7 PP ENSG00000121774 KHDRBS1 Hs.445893 1363 PP 1395.2 PP ENSG00000108424 KPNB1 Hs.532793 415.1 PP 709.85 PP ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000123562 MORF4L2 Hs.326387 2189.8 PP 2626.1 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000133026 MYH10 Hs.16355 375.1 PP 362.5 PP ENSG00000136504 MYST2 Hs.21907 331.7 PP 192.25 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000124789 NUP153 Hs.121088 216.4 PP 291.8 PP ENSG00000046651 OFD1 Hs.6483 1022.7 PP 692.15 PP ENSG00000091039 OSBPL8 Hs.430849 212 PP 251.65 PP ENSG00000172239 PAIP1 Hs.482038 127.8 PP 157 PP ENSG00000157654 PALM2- Hs.259461 181.4 PP 163.75 PP AKAP2 ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000115421 PAPOLG Hs.387471 153.2 PP 91.25 PP ENSG00000059758 PCTK2 Hs.506415 118.3 PP 220.9 PP ENSG00000065485 PDIA5 Hs.477352 352.8 PP 418.95 PP ENSG00000138814 PPP3CA Hs.435512 122.5 PP 205 PP ENSG00000125818 PSMF1 Hs.471917 254.5 PP 259.45 PP ENSG00000121390 PSPC1 Hs.213198 142.5 PP 179.5 PP ENSG00000138430 PTD004 Hs.157351 848.2 PP 1052.6 PP ENSG00000134644 PUM1 Hs.281707 378.4 PP 422.3 PP ENSG00000185129 PURA Hs.443121 149.5 PP 224.95 PP ENSG00000010017 RANBP9 Hs.306242 381.3 PP 489.95 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000168758 SEMA4C Hs.516220 186.7 PP 157.95 PP ENSG00000116560 SFPQ Hs.355934 306.9 PP 689 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000095480 SPFH1 Hs.150087 646.4 PP 689.15 PP ENSG00000124783 SSR1 Hs.114033 600.7 PP 686.65 PP ENSG00000168610 STAT3 Hs.463059 401.7 PP 390.05 PP ENSG00000102572 STK24 Hs.508514 958.4 PP 1363.75 PP ENSG00000168952 STXBP6 Hs.508958 152.6 PP 218.55 PP ENSG00000028839 TBPL1 Hs.486507 170.1 PP 187.95 PP ENSG00000136205 TENS1 Hs.520814 443.4 PP 221.15 PP ENSG00000077097 TOP2B Hs.475733 592.4 PP 806 PP ENSG00000166598 TRA1 Hs.192374 151 PP 339.35 PP ENSG00000165699 TSC1 Hs.370854 232.7 PP 242.3 PP ENSG00000134215 VAV3 Hs.267659 615.4 PP 341.3 PP ENSG00000132716 WDR42A Hs.492236 195.9 PP 233.1 PP ENSG00000170949 ZNF160 Hs.467236 1056.4 PP 1016.85 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP let-7c ENSG00000114770 ABCC5 Hs.368563 373.4 PP 322.1 PM ENSG00000184009 ACTG1 Hs.514581 11731 PP 14874 PP ENSG00000151320 AKAP6 Hs.509083 137.8 PP 117.05 PP ENSG00000123505 AMD1 Hs.159118 648.3 PP 1011.85 PP ENSG00000062725 APPBP2 Hs.84084 106.4 PP 116.15 PA ENSG00000175220 ARHGAP1 Hs.138860 594 PP 502.3 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000116539 ASH1L Hs.491060 244.1 PP 214.3 PA ENSG00000171456 ASXL1 Hs.374043 275.6 PP 307.25 PP ENSG00000082153 BZW1 Hs.355983 536.1 PP 794.1 PP ENSG00000136261 BZW2 Hs.487635 1167.4 PP 1664.45 PP ENSG00000104327 CALB1 Hs.65425 79.6 PP 42.05 PA ENSG00000131236 CAP1 Hs.370581 765.9 PP 691 PP ENSG00000112576 CCND3 Hs.534307 539.8 PP 402.15 PP ENSG00000111642 CHD4 Hs.162233 299.5 PP 431.1 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000108848 CROP Hs.130293 2166.4 PP 1637.55 PP ENSG00000009307 CSDE1 Hs.69855 1494.1 PP 1637.9 PP ENSG00000101266 CSNK2A1 Hs.446484 170.4 PP 261.4 PP ENSG00000048740 CUGBP2 Hs.309288 159.6 PP 334.5 PP ENSG00000119689 DLST /// Hs.480230 187.3 PP 148.8 PM DLSTP ENSG00000161202 DVL3 Hs.388116 134.8 PP 206.95 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000109381 ELF2 Hs.260903 150.8 PP 152.4 PA ENSG00000100442 FKBP3 Hs.509226 386.9 PP 438.15 PP ENSG00000141429 GALNT1 Hs.514806 220 PP 273.8 PP ENSG00000108588 GK001 Hs.202011 160.3 PP 198.45 PP ENSG00000174021 GNG5 Hs.513557 683.5 PP 869.7 PP ENSG00000103342 GSPT1 Hs.528780 356.7 PP 369.6 PP ENSG00000152795 HNRPDL Hs.527105 1931.8 PP 1802.05 PP ENSG00000078399 HOXA9 Hs.127428 739.2 PP 674 PP ENSG00000109083 IFT20 Hs.4187 322.8 PP 241.4 PP ENSG00000105135 ILVBL Hs.78880 243.6 PP 297 PP ENSG00000140575 IQGAP1 Hs.430551 113 PP 199.1 PP ENSG00000171988 JMJD1C Hs.413416 107 PP 198.85 PP ENSG00000100097 LGALS1 Hs.445351 454.5 PP 244.1 PP ENSG00000111252 LNK Hs.506784 230.1 PP 198.8 PP ENSG00000145012 LPP Hs.444362 205.6 PP 238.9 PP ENSG00000054219 LY75 Hs.153563 126.4 PP 175.65 PP ENSG00000166963 MAP1A Hs.194301 433.9 PP 321.4 PM ENSG00000075413 MARK3 Hs.35828 129.9 PP 75.05 PP ENSG00000147065 MSN Hs.87752 793.3 PP 791.75 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000138386 NAB1 Hs.107474 187.9 PP 203.9 PP ENSG00000106459 NRF1 Hs.298069 157.5 PP 126.8 PA ENSG00000184588 PDE4B Hs.198072 234.1 PP 349.5 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000119396 RAB14 Hs.371563 140.5 PP 198.15 PP ENSG00000111540 RAB5B Hs.77690 234.1 PP 216.45 PP ENSG00000056687 RGL2 Hs.509622 340.5 PP 232.1 PA ENSG00000101782 RIOK3 Hs.445511 276.1 PP 311.7 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000151967 SCHIP1 Hs.134665 497 PP 417.95 PP ENSG00000155878 SEC22L1 Hs.534212 662.9 PP 588.95 PP ENSG00000168758 SEMA4C Hs.516220 186.7 PP 157.95 PP ENSG00000120742 SERP1 Hs.518326 285.7 PP 343.4 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000102038 SMARCA1 Hs.152292 101.1 PP 72.95 PA ENSG00000124783 SSR1 Hs.114033 600.7 PP 686.65 PP ENSG00000168610 STAT3 Hs.463059 401.7 PP 390.05 PP ENSG00000119048 UBE2B Hs.385986 335 PP 417.45 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000134215 VAV3 Hs.267659 615.4 PP 341.3 PP ENSG00000073905 VDAC1 Hs.202085 175.6 PP 289.2 PP ENSG00000122958 VPS26 Hs.499925 508.7 PP 610 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000107372 ZA20D2 Hs.406096 967.2 PP 1262.9 PP ENSG00000015171 ZMYND11 Hs.292265 403.3 PP 784.1 PP ENSG00000147130 ZNF261 Hs.522684 475.8 PP 232.55 PP 192-2_3 ENSG00000138071 ACTR2 Hs.393201 343.5 PP 1110.1 PP ENSG00000170017 ALCAM Hs.150693 528.9 PP 695.45 PP ENSG00000123268 ATF1 Hs.435267 95.1 PP 109.2 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000134153 C15orf24 Hs.160565 612.5 PP 706.2 PP ENSG00000082258 CCNT2 Hs.292754 114.4 PP 102.75 PP ENSG00000111269 CREBL2 Hs.13313 353.2 PP 216.25 PP ENSG00000137992 DBT Hs.270570 2078.5 PP 2456.8 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000157540 DYRK1A Hs.368240 367.8 PP 751.2 PP ENSG00000124882 EREG Hs.115263 351.8 PP 535.15 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000150093 ITGB1 Hs.429052 865.6 PP 593.85 PP ENSG00000119321 KIAA0674 Hs.522351 310 PP 302.4 PP ENSG00000127603 MACF1 Hs.472475 222.8 PP 248.35 PP ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000147065 MSN Hs.87752 793.3 PP 791.75 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000138386 NAB1 Hs.107474 187.9 PP 203.9 PP ENSG00000137420 NOL7 Hs.549161 1095.5 PP 1222.05 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000090621 PABPC4 Hs.169900 376 PP 622.5 PP ENSG00000114054 PCCB Hs.63788 270.6 PP 392.75 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000117569 PTBP2 Hs.269895 183 PP 160.15 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PA ENSG00000139687 RB1 Hs.408528 152.7 PP 153.35 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000124193 SFRS6 Hs.6891 2001.1 PP 2200.75 PP ENSG00000147454 SLC25A37 Hs.122514 103 PP 86.95 PA ENSG00000124222 STX16 Hs.307913 474.2 PP 228.9 PP ENSG00000132718 SYT11 Hs.32984 106.3 PP 102.95 PP ENSG00000109332 UBE2D3 Hs.472031 471.2 PP 635.4 PP ENSG00000162607 USP1 Hs.35086 275.3 PP 614.05 PP 24-2 see 24 128a ENSG00000138031 ADCY3 Hs.467898 208.6 PP 178.4 PP ENSG00000004455 AK2 Hs.470907 303.6 PP 498.6 PP ENSG00000123505 AMD1 Hs.159118 648.3 PP 1011.85 PP ENSG00000120868 APAF1 Hs.552567 65.9 PP 94.15 PP ENSG00000062725 APPBP2 Hs.84084 106.4 PP 116.15 PA ENSG00000129675 ARHGEF6 Hs.522795 1207.5 PP 815.1 PP ENSG00000054267 ARID4B Hs.533633 227 PP 252.45 PP ENSG00000134108 ARL10C Hs.250009 578.1 PP 591.95 PP ENSG00000114573 ATP6V1A Hs.477155 710.1 PP 1105.8 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000158850 B4GALT3 Hs.321231 241.5 PP 227.15 PP ENSG00000119866 BCL11A Hs.370549 363.1 PP 387.8 PP ENSG00000133639 BTG1 Hs.255935 955.9 PP 1057.95 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000132823 C20orf111 Hs.75798 346 PP 259.1 PP ENSG00000132424 C6orf111 Hs.520287 674.8 PP 743.75 PP ENSG00000111913 C6orf32 Hs.484915 83.8 PP 62.8 PP ENSG00000136819 C9orf78 Hs.278429 172.9 PP 130.25 PP ENSG00000136925 C9orf97 Hs.494595 207.5 PP 180.4 PP ENSG00000074410 CA12 Hs.210995 125.1 PP 133.8 PP ENSG00000135932 CAB39 Hs.471593 527.9 PP 637.3 PP ENSG00000104327 CALB1 Hs.65425 79.6 PP 42.05 PA ENSG00000116489 CAPZA1 Hs.514934 766.7 PP 1165.8 PP ENSG00000108349 CASC3 Hs.350229 286.5 PP 317.4 PP ENSG00000067955 CBFB Hs.460988 719.1 PP 1032 PP ENSG00000108468 CBX1 Hs.77254 432 PP 415.85 PA ENSG00000113328 CCNG1 Hs.79101 1025 PP 737.8 PP ENSG00000163468 CCT3 Hs.491494 1044.4 PP 1212.8 PP ENSG00000174059 CD34 Hs.374990 830.4 PP 459.3 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000109572 CLCN3 Hs.481186 244.9 PP 248.15 PP ENSG00000113240 CLK4 Hs.406557 163.3 PP 314.55 PP ENSG00000141367 CLTC Hs.491351 1169 PP 1399.6 PP ENSG00000198791 CNOT7 Hs.170553 250.3 PP 508.5 PP ENSG00000110880 CORO1C Hs.330384 257.4 PP 237.9 PP ENSG00000111605 CPSF6 Hs.369606 402.6 PP 474.05 PP ENSG00000005339 CREBBP Hs.459759 287.2 PP 239.6 PP ENSG00000099942 CRKL Hs.5613 126.4 PP 192.1 PP ENSG00000102974 CTCF Hs.368367 506.1 PP 535.55 PP ENSG00000140181 D15F37 /// Hs.531509 242.3 PP 427.35 PP LOC440248 ENSG00000183283 DAZAP2 Hs.369761 1267.2 PP 976.7 PP ENSG00000172795 DCP2 Hs.443875 204 PP 270.65 PP ENSG00000124487 DDX3X Hs.380774 769.8 PP 1229 PP ENSG00000108654 DDX5 Hs.279806 3052 PP 3508.95 PP ENSG00000082458 DLG3 Hs.522680 136.2 PP 89.45 PP ENSG00000004975 DVL2 Hs.118640 276.9 PP 232.55 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000104517 EDD1 Hs.492445 254.6 PP 227.15 PP ENSG00000092847 EIF2C1 Hs.22867 292.5 PP 296.95 PP ENSG00000123908 EIF2C2 Hs.449415 150.2 PP 115.85 PP ENSG00000156976 EIF4A2 Hs.478553 3569 PP 6526.55 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000132507 EIF5A Hs.534314 1102.8 PP 2858.65 PP ENSG00000155849 ELMO1 Hs.304578 367.9 PP 339.8 PP ENSG00000012660 ELOVL5 Hs.520189 681.6 PP 667.3 PP ENSG00000170522 ELOVL6 Hs.412939 96.5 PP 156.45 PP ENSG00000182944 EWSR1 Hs.374477 389.7 PP 457.25 PP ENSG00000120699 EXOSC8 Hs.294041 196.9 PP 283.25 PP ENSG00000106462 EZH2 Hs.444082 162.9 PP 216.25 PP ENSG00000124491 F13A1 Hs.335513 290.7 PP 299.8 PP ENSG00000153310 FAM49B Hs.492869 311.6 PP 329.6 PP ENSG00000134884 FLJ10154 Hs.508644 843.1 PP 1079.5 PP ENSG00000168137 FLJ10707 Hs.288164 452.5 PP 256.1 PM ENSG00000159202 FLJ13855 Hs.514297 539 PP 525.1 PP ENSG00000153561 FLJ13910 Hs.75277 194.1 PP 143.15 PP ENSG00000170345 FOS Hs.25647 1254.3 PP 1832.65 PP ENSG00000125740 FOSB Hs.75678 1751.3 PP 3599.55 PP ENSG00000150907 FOXO1A Hs.370666 253.6 PP 140.95 PP ENSG00000114861 FOXP1 Hs.431498 322.7 PP 410.3 PP ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PP ENSG00000109586 GALNT7 Hs.127407 97.2 PP 153.95 PP ENSG00000179348 GATA2 Hs.367725 1993.1 PP 1452.25 PP ENSG00000135677 GNS Hs.334534 261.1 PP 248.15 PP ENSG00000108433 GOSR2 Hs.463278 197.9 PP 119.7 PP ENSG00000112414 GPR126 Hs.318894 109.5 PP 231.55 PP ENSG00000103342 GSPT1 Hs.528780 356.7 PP 369.6 PP ENSG00000140307 GTF2A2 Hs.512934 276 PP 270.75 PP ENSG00000164032 H2AFZ Hs.119192 1477 PP 3477.65 PP ENSG00000122566 HNRPA2B1 Hs.487774 1802.2 PP 2268.3 PP ENSG00000125944 HNRPR Hs.373763 839.4 PP 980.1 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000105323 HNRPUL1 Hs.155218 406.9 PP 401.15 PP ENSG00000153807 HOXA10 Hs.110637 161.3 PP 200.7 PA ENSG00000078399 HOXA9 Hs.127428 739.2 PP 674 PP ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000074356 HSA277841 Hs.120963 222.9 PP 150.05 PP ENSG00000144381 HSPD1 Hs.113684 2868.6 PP 5689.3 PP ENSG00000171105 INSR Hs.465744 247.7 PP 292.45 PP ENSG00000184916 JAG2 Hs.433445 261.3 PP 227.15 PP ENSG00000115548 JMJD1A Hs.531819 264 PP 207.05 PP ENSG00000171988 JMJD1C Hs.413416 107 PP 198.85 PP ENSG00000197226 KIAA0676 Hs.155829 362.1 PP 398.15 PP ENSG00000170759 KIF5B Hs.327736 346.6 PP 430.75 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PP ENSG00000102753 KPNA3 Hs.527919 250.8 PP 391.35 PP ENSG00000189067 LITAF Hs.459940 725.1 PP 513.5 PP ENSG00000124831 LRRFIP1 Hs.471779 429.8 PP 408.25 PP ENSG00000175324 LSM1 Hs.425311 378.1 PP 497.8 PP ENSG00000121579 MAK3 Hs.269528 268.8 PP 307 PP ENSG00000012983 MAP4K5 Hs.130491 66 PP 116 PP ENSG00000112062 MAPK14 Hs.485233 507.4 PP 486.3 PP ENSG00000082212 ME2 Hs.233119 471.1 PP 513.15 PP ENSG00000147649 MTDH Hs.377155 258.6 PP 329.8 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000170873 MTSS1 Hs.336994 152.7 PP 194.6 PP ENSG00000136504 MYST2 Hs.21907 331.7 PP 192.25 PP ENSG00000138386 NAB1 Hs.107474 187.9 PP 203.9 PP ENSG00000164258 NDUFS4 Hs.528222 383.2 PP 290.65 PP ENSG00000069869 NEDD4 Hs.1565 186.1 PP 193.9 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000116044 NFE2L2 Hs.155396 181.2 PP 280.9 PP ENSG00000166681 NGFRAP1 Hs.448588 2654.4 PP 3641.6 PP ENSG00000164190 NIPBL Hs.481927 165.1 PP 145.15 PP ENSG00000180530 NRIP1 Hs.155017 842 PP 914.85 PP ENSG00000124789 NUP153 Hs.121088 216.4 PP 291.8 PP ENSG00000162231 NXF1 Hs.523739 543 PP 626 PP ENSG00000101888 NXT2 Hs.25010 135.9 PP 271.1 PP ENSG00000046651 OFD1 Hs.6483 1022.7 PP 692.15 PP ENSG00000172939 OXSR1 Hs.475970 211 PP 186.15 PA ENSG00000070756 PABPC1 Hs.387804 7565 PP 7921.7 PP ENSG00000151846 PABPC3 Hs.458280 4002.7 PP 3510.25 PP ENSG00000100836 PABPN1 Hs.117176 758.2 PP 790.85 PP ENSG00000157654 PALM2- Hs.259461 181.4 PP 163.75 PP AKAP2 ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000168283 PCGF4 Hs.380403 254.7 PP 304.1 PP ENSG00000184588 PDE4B Hs.198072 234.1 PP 349.5 PP ENSG00000065485 PDIA5 Hs.477352 352.8 PP 418.95 PP ENSG00000152556 PFKM Hs.75160 303.1 PP 332 PP ENSG00000167085 PHB Hs.514303 723.7 PP 649.4 PP ENSG00000145675 PIK3R1 Hs.132225 249.1 PP 181 PP ENSG00000171033 PKIA Hs.433700 88.6 PP 131.05 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000112941 POLS Hs.481542 355.5 PP 367.35 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000163806 PPP1CB Hs.468018 140 PP 176 PP ENSG00000186298 PPP1CC Hs.79081 709.2 PP 1286.15 PP ENSG00000104762 PPP2R2A Hs.146339 331.7 PP 299.6 PP ENSG00000107758 PPP3CB Hs.500067 318.9 PP 241.25 PP ENSG00000166501 PRKCB1 Hs.460355 742.5 PP 535.05 PP ENSG00000129084 PSMA1 Hs.102798 1702 PP 1305.3 PP ENSG00000171522 PTGER4 Hs.199248 531.8 PP 514.8 PP ENSG00000112531 QKI Hs.510324 284.1 PP 564.45 PP ENSG00000103769 RAB11A Hs.321541 1087.7 PP 1020.15 PP ENSG00000080371 RAB21 Hs.524590 103.7 PP 212.9 PP ENSG00000111737 RAB35 Hs.524788 394.6 PP 431.2 PP ENSG00000167461 RAB8A Hs.5947 675.2 PP 756.75 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000109756 RAPGEF2 Hs.113912 394.9 PP 551.95 PP ENSG00000142599 RERE Hs.463041 480.2 PP 252.15 PP ENSG00000056687 RGL2 Hs.509622 340.5 PP 232.1 PA ENSG00000090104 RGS1 Hs.75256 90.4 PP 99.4 PP ENSG00000106615 RHEB Hs.283521 943.5 PP 1172.5 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000126858 RHOT1 Hs.462742 196.4 PP 304.85 PP ENSG00000170881 RNF139 Hs.492751 392.9 PP 435.75 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000043093 RP42 Hs.104613 236.5 PP 204.45 PP ENSG00000163902 RPN1 Hs.518244 291.2 PP 302.5 PA ENSG00000100784 RPS6KA5 Hs.510225 152.1 PP 132.75 PP ENSG00000144580 RQCD1 Hs.148767 284.7 PP 361.25 PP ENSG00000115310 RTN4 Hs.429581 710.8 PP 1341.5 PP ENSG00000159216 RUNX1 Hs.149261 108.8 PP 211.2 PP ENSG00000163602 RYBP Hs.7910 398 PP 462.8 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000092421 SEMA6A Hs.156967 140 PP 182.2 PP ENSG00000179833 SERTAD2 Hs.77293 498.4 PP 556.2 PP ENSG00000119335 SET Hs.436687 2967 PP 4307.1 PP ENSG00000116560 SFPQ Hs.355934 306.9 PP 689 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000139218 SFRS2IP Hs.210367 224.1 PP 132.2 PA ENSG00000108061 SHOC2 Hs.104315 283.3 PP 262.55 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000147454 SLC25A37 Hs.122514 103 PP 86.95 PA ENSG00000112305 SMAP1 Hs.485717 205.2 PP 129.15 PP ENSG00000080503 SMARCA2 Hs.298990 264.4 PP 201.3 PP ENSG00000084090 STARD7 Hs.469331 1166.2 PP 1442.7 PP ENSG00000102572 STK24 Hs.508514 958.4 PP 1363.75 PP ENSG00000198648 STK39 Hs.276271 129.8 PP 111.35 PP ENSG00000124222 STX16 Hs.307913 474.2 PP 228.9 PP ENSG00000116030 SUMO1 Hs.81424 240.9 PP 268.85 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000008282 SYPL1 Hs.80919 157.3 PP 190.55 PP ENSG00000135090 TAOK3 — 518.8 PP 394 PP ENSG00000177426 TGIF Hs.373550 116.7 PP 95.35 PM ENSG00000123066 THRAP2 Hs.159799 142.1 PP 396.2 PP ENSG00000116001 TIA1 Hs.516075 151.6 PP 145 PP ENSG00000101337 TM9SF4 Hs.529360 129.2 PP 121.3 PP ENSG00000034510 TMSB10 Hs.446574 8602.5 PP 6478.75 PP ENSG00000083312 TNPO1 Hs.482497 483 PP 750.85 PP ENSG00000064419 TNPO3 Hs.193613 392.6 PP 422.55 PP ENSG00000173334 TRIB1 Hs.444947 238.3 PP 300.85 PP ENSG00000116747 TROVE2 Hs.288178 480.7 PP 473.25 PP ENSG00000165699 TSC1 Hs.370854 232.7 PP 242.3 PP ENSG00000139921 TXNDC Hs.125221 200.8 PP 393.7 PP ENSG00000170035 UBE2E3 Hs.470804 311.5 PP 258.25 PP ENSG00000177889 UBE2N Hs.524630 415.5 PP 551.55 PP ENSG00000160714 UBE2Q Hs.516587 457.1 PP 377.95 PP ENSG00000124208 UBE2V1/// Hs.420529 504.3 PP 320.6 PP Kua-UEV ENSG00000110344 UBE4A Hs.75275 271.3 PP 404.8 PP ENSG00000115464 USP34 Hs.468663 1075.5 PP 1012.75 PP ENSG00000124486 USP9X Hs.77578 85.3 PP 115.1 PP ENSG00000035403 VCL Hs.500101 332.1 PP 541.1 PP ENSG00000119541 VPS4B Hs.126550 305.9 PP 385.15 PP ENSG00000132716 WDR42A Hs.492236 195.9 PP 233.1 PP ENSG00000109046 WSB1 Hs.446017 679.3 PP 880.75 PP ENSG00000169180 XPO6 Hs.460468 395.3 PP 515.4 PP ENSG00000166913 YWHAB Hs.279920 222.4 PP 288.75 PP ENSG00000134308 YWHAQ Hs.74405 922.3 PP 2337.65 PP ENSG00000186908 ZDHHC17 Hs.4014 123.5 PP 166.2 PP ENSG00000185650 ZFP36L1 Hs.85155 94.5 PP 140.7 PP ENSG00000010244 ZNF207 Hs.500775 918.9 PP 742.3 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP ENSG00000172466 ZNF24 Hs.514802 240.6 PP 213.65 PP ENSG00000036549 ZZZ3 Hs.480506 125 PP 189.7 PP 212 ENSG00000138031 ADCY3 Hs.467898 208.6 PP 178.4 PP ENSG00000140350 ANP32A Hs.458747 416 PP 331.55 PP ENSG00000062725 APPBP2 Hs.84084 106.4 PP 116.15 PA ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000133935 C14orf1 Hs.15106 292.6 PP 249.85 PP ENSG00000153113 CAST Hs.440961 301.7 PP 461.25 PP ENSG00000108468 CBX1 Hs.77254 432 PP 415.85 PP ENSG00000100528 CNIH Hs.294603 252.6 PP 391.7 PP ENSG00000160967 CUTL1 Hs.438974 333.3 PP 412.55 PP ENSG00000183283 DAZAP2 Hs.369761 1267.2 PP 976.7 PP ENSG00000156976 EIF4A2 Hs.478553 3569 PP 6526.55 PP ENSG00000104064 GABPB2 Hs.546852 129.3 PP 183.75 PM ENSG00000141429 GALNT1 Hs.514806 220 PP 273.8 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000164032 H2AFZ Hs.119192 1477 PP 3477.65 PP ENSG00000100281 HMG2L1 Hs.197086 215.2 PP 87.75 PM ENSG00000099783 HNRPM Hs.465808 968.5 PP 880.2 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000010295 HOM-TES- Hs.15243 407 PP 355.35 PP 103 ENSG00000078399 HOXA9 Hs.127428 739.2 PP 674 PP ENSG00000108622 ICAM2 Hs.431460 319.9 PP 269.45 PP ENSG00000135387 M11S1 Hs.471818 464.9 PP 451.45 PP ENSG00000101367 MAPRE1 Hs.472437 196.1 PP 206.85 PM ENSG00000168906 MAT2A Hs.516157 1011.4 PP 738.6 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PA ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000143995 MEIS1 Hs.526754 452.1 PP 262.65 PP ENSG00000108389 MTMR4 Hs.514373 330.7 PP 407.2 PP ENSG00000133026 MYH10 Hs.16355 375.1 PP 362.5 PP ENSG00000153234 NR4A2 Hs.165258 124.6 PP 242.85 PP ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000136040 PLXNC1 Hs.551522 354.6 PP 387.1 PP ENSG00000100941 PNN Hs.409965 839.5 PP 617.3 PP ENSG00000078304 PPP2R5C Hs.368264 174.9 PP 165.25 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000181467 RAP2B Hs.98643 583.1 PP 665.95 PP ENSG00000125976 RBM12 — 321.1 PP 313.35 PP ENSG00000137710 RDX Hs.263671 189.5 PP 184.9 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000137575 SDCBP Hs.200804 934 PP 955.25 PP ENSG00000122545 7-Sep Hs.191346 815 PP 1146.5 PP ENSG00000136450 SFRS1 Hs.68714 1264.9 PP 1622.65 PP ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000117394 SLC2A1 Hs.473721 233.5 PP 290.75 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000091640 SPAG7 Hs.90436 900.7 PP 517.9 PP ENSG00000164056 SPRY1 Hs.436944 360.7 PP 268.15 PP ENSG00000157514 TSC22D3 Hs.522074 1752.5 PP 2189.45 PP ENSG00000163084 TSN Hs.75066 130.8 PP 178.35 PP ENSG00000116809 ZBTB17 Hs.433764 249.3 PP 146.75 PP ENSG00000114514 ZNF148 Hs.380334 211.6 PP 226.65 PP 32 ENSG00000138031 ADCY3 Hs.467898 208.6 PP 178.4 PP ENSG00000143401 ANP32E Hs.385913 169.2 PP 423.3 PP ENSG00000117713 ARID1A Hs.468972 477.6 PP 444.8 PP ENSG00000174437 ATP2A2 Hs.506759 203.5 PP 255.4 PP ENSG00000155096 AZIN1 Hs.459106 551.2 PP 619.2 PP ENSG00000159388 BTG2 Hs.519162 588.2 PP 538.3 PP ENSG00000112237 CCNC Hs.430646 273.3 PP 380.8 PP ENSG00000070831 CDC42 Hs.467637 620.1 PP 437.75 PP ENSG00000118260 CREB1 Hs.516646 122.9 PP 230.35 PP ENSG00000082458 DLG3 Hs.522680 136.2 PP 89.45 PP ENSG00000128590 DNAJB9 Hs.6790 211.5 PP 433.55 PP ENSG00000112242 E2F3 Hs.269408 295.6 PP 585.95 PP ENSG00000120738 EGR1 Hs.326035 128.6 PP 290.15 PP ENSG00000104131 EIF3S1 Hs.404056 340.4 PP 365.05 PP ENSG00000110321 EIF4G2 Hs.183684 2137 PP 2701.9 PP ENSG00000100664 EIF5 Hs.433702 96.4 PP 55.8 PA ENSG00000114416 FXR1 Hs.478407 143.9 PP 155.75 PP ENSG00000138757 G3BP2 Hs.303676 242.8 PP 428.55 PP ENSG00000106070 GRB10 Hs.164060 550.7 PP 574.15 PP ENSG00000172534 HCFC1 Hs.83634 146.2 PP 233.9 PA ENSG00000173744 HRB Hs.443507 202.6 PP 405.7 PP ENSG00000144381 HSPD1 Hs.113684 2868.6 PP 5689.3 PP ENSG00000143164 IQWD1 Hs.435741 168.5 PP 156.4 PP ENSG00000150093 ITGB1 Hs.429052 865.6 PP 593.85 PP ENSG00000117139 JARID1B Hs.443650 203.6 PP 353.6 PP ENSG00000136826 KLF4 Hs.376206 536.5 PP 1193.7 PA ENSG00000110514 MADD Hs.82548 423 PP 267.9 PA ENSG00000175130 MARCKSL1 Hs.75061 314.8 PP 265.6 PP ENSG00000180398 MCFD2 Hs.293689 289.4 PP 258.25 PP ENSG00000081189 MEF2C Hs.444409 426 PP 437.85 PP ENSG00000005810 MYCBP2 Hs.151411 187 PP 643.55 PP ENSG00000106459 NRF1 Hs.298069 157.5 PP 126.8 PA ENSG00000170515 PA2G4 Hs.478044 251.3 PP 523.75 PP ENSG00000070756 PABPC1 Hs.387804 7565 PP 7921.7 PP ENSG00000145730 PAM Hs.369430 187.3 PP 178.45 PP ENSG00000090060 PAPOLA Hs.253726 307.4 PP 286 PP ENSG00000185619 PCGF3 Hs.144309 192.1 PP 237.55 PP ENSG00000102225 PCTK1 Hs.496068 135 PP 88.45 PA ENSG00000025293 PHF20 Hs.517044 249.8 PP 173.65 PP ENSG00000112941 POLS Hs.481542 355.5 PP 367.35 PP ENSG00000180817 PP Hs.437403 894.8 PP 1860.7 PP ENSG00000100614 PPM1A Hs.130036 197.3 PP 259.8 PP ENSG00000163806 PPP1CB Hs.468018 65.7 PP 135.05 PP ENSG00000171522 PTGER4 Hs.199248 531.8 PP 514.8 PP ENSG00000048991 R3HDM Hs.412462 217.6 PP 376.75 PP ENSG00000127314 RAP1B Hs.369920 1093.1 PP 1537.75 PP ENSG00000067560 RHOA Hs.247077 1537.7 PP 2368.8 PP ENSG00000119729 RHOQ Hs.549125 187.1 PP 222.3 PP ENSG00000134758 RNF138 Hs.302408 186.9 PP 511.9 PP ENSG00000137075 RNF38 Hs.333503 322.6 PP 227.7 PP ENSG00000182568 SATB1 Hs.517717 829.9 PP 652.05 PP ENSG00000156642 SDFR1 Hs.187866 169.4 PP 193.05 PP ENSG00000116754 SFRS11 Hs.479693 819.9 PP 1077.55 PP ENSG00000153914 SFRS12 Hs.519347 258 PP 229.6 PP ENSG00000139218 SFRS2IP Hs.210367 224.1 PP 132.2 PA ENSG00000096717 SIRT1 Hs.369779 133.8 PP 124.9 PP ENSG00000184602 SNN Hs.459952 234.4 PP 239.3 PP ENSG00000159140 SON Hs.517262 408.8 PP 467.15 PP ENSG00000137642 SORL1 Hs.368592 2264.1 PP 1084.65 PP ENSG00000124766 SOX4 Hs.357901 2351.7 PP 2500.65 PP ENSG00000172845 SP3 Hs.531587 137.8 PP 293.35 PP ENSG00000178691 SUZ12 Hs.462732 602.2 PP 633.3 PP ENSG00000165169 TCTE1L Hs.446392 323 PP 369.75 PP ENSG00000116001 TIA1 Hs.516075 151.6 PP 145 PP ENSG00000183864 TOB2 Hs.474978 165.3 PP 196.4 PP ENSG00000154174 TOMM70A Hs.227253 585.1 PP 581.85 PP ENSG00000170142 UBE2E1 Hs.164853 318.4 PP 488.3 PP ENSG00000164828 UNC84A Hs.438072 146.4 PP 111.15 PP ENSG00000135655 USP15 Hs.434951 197.3 PP 160.35 PP ENSG00000143952 VPS54 Hs.48499 187.9 PP 151.5 PP ENSG00000179456 ZNF238 Hs.69997 235.7 PP 241.8 PP 100 ENSG00000123908 EIF2C2 Hs.449415 150.2 PP 115.85 PP ENSG00000022267 FHL1 Hs.435369 5240 PP 3151.75 PP ENSG00000153187 HNRPU Hs.166463 470.3 PP 887.6 PP ENSG00000152601 MBNL1 Hs.478000 294.4 PP 864.5 PP ENSG00000100330 MTMR3 Hs.474536 204.7 PP 287 PP ENSG00000082641 NFE2L1 Hs.514284 735.5 PP 726.35 PP ENSG00000136448 NMT1 Hs.532790 220.5 PP 219.45 PP ENSG00000147162 OGT Hs.405410 165.1 PP 183.6 PP ENSG00000136238 RAC1 Hs.413812 767.5 PP 1337.4 PP ENSG00000092421 SEMA6A Hs.156967 140 PP 182.2 PP

Example 4 MicroRNA-16 Inhibits Human Erythroid Differentiation Abstract

Previously, the inventors determined that microRNA-16 (miR-16) is expressed in normal human CD34⁺ hematopoietic stem-progenitor cells (HSPCs) and predicted by bio-informatics that miR-16 may regulate erythroid differentiation. Here the inventors report that ectopic miR-16 expression completely blocked hemin-induced erythroid differentiation of K562 human erythroleukemia cells. Likewise, enforced miR-16 expression in normal human CD34⁺ cells strongly inhibited erythroid differentiation, without affecting myeloid differentiation in either colony-forming or suspension culture assays. This study provides functional evidence verifying the inventors' bioinformatic prediction that miR-16 can selectively regulate human erythroid differentiation.

Introduction

MicroRNAs (miRs) are ˜22 nucleotide RNAs that post-transcriptionally regulate mRNA molecules¹ and can thereby control cellular proliferation, differentiation and metabolism². The chromosome 13q14 locus of miR-15/16, the first microRNA described as a tumor suppressor gene, is deleted in many human chronic lymphoid leukemia (CLL) cases³, a finding replicated for the syntenic deletion in mice that develop CLL⁴. In normal B lymphoid cells, miR-16 down-regulates the level of BCL-2 protein, leading to increased cellular susceptibility to apoptosis⁵. In addition, the miR-16 family has been bio-informatically suggested to down-regulate cell cycle-associated mRNAs⁶. Recently, miR-16 has been implicated in Xenopus cellular differentiation via controlling Nodal signaling⁷. In mammalian cellular differentiation, miR-16 expression increases during terminal erythroid maturation⁸.

In a previous study, the inventors determined miR expression in normal human CD34⁺ HSPCs⁹ and combined this with HSPC mRNA expression data¹⁰ to bio-informatically predict possible roles that miRs play in hematopoiesis, with a particular focus on possible control points in stem to progenitor cell transitions. This analysis identified the possible involvement of miR-16 in either myeloid or erythroid differentiation. In the current study, the inventors doc Ument dynamic miR-16 expression during myeloid and erythroid differentiation, and show by functional assays that miR-16 expression markedly decreases erythropoiesis in the K562 cell line model and in normal primary human CD34⁺ HSPCs without affecting myelopoiesis.

Materials and Methods Cell Culture

K562 (ATCC, Rockville, Md.) were cultured, and CD34⁺ cells from normal adult donor mobilized blood were obtained from the National Heart, Lung, and Blood Institute Program of Excellence in Gene Therapy, Hematopoietic Cell Processing Core (Fred Hutchison Cancer Center) under Institutional Review Board-approved protocols of both the Fred Hutchinson Cancer Center and the Johns Hopkins School of Medicine, and cultured as previously described^(9,10).

Lentivirus Production and miR-16 Ectopic Expression

The 630 by genomic sequence surrounding hsa-miR-16a was inserted into dual promoter FUGW parental vector containing green fluorescent protein (GFP)^(11,12). CD34⁺ cells were transduced with miR-16 or parental control lentivirus as previously described⁹.

MicroRNA Isolation and Northern Blotting

Erythroid differentiation of K562 cells was induced with 50 ng/ml Hemin^(—). Cells were harvested over a 7 day time course, and total RNA was isolated with TriZol (Invitrogen, Carlsbad, Calif.). MiR-16a expression was determined by miR-microarray as previously described⁹, and verified by Northern blotting.

SILAC Proteomic Assay

Control and miR-16-transduced K562 cells were treated with hemin or vehicle control. At day 7 (d7), cellular protein was isolated from 2×10⁷ cells and assayed by Stable Isotope Labeling with Amino Acids in Cell Culture (SILAC) proteomics as described^(14,15).

Methycellulose Colony-Forming and Suspension Culture Assays

Lentivirally transduced CD34⁺ cells were fluorescence activated cell sorter (FACS)-sorted two days after transduction for GFP⁺cells using a FACS Vantage (BD Biosciences, San Jose, CA) flow cytometer. GFP⁺ cells were plated into colony-forming cell (CFC) and suspension culture assays as previously described⁹. CFC-GM and BFU-E colonies from CFC assays were enumerated 14 days after transduction. Cells from suspension cultures were immunostained 7 days after FACS sorting with CD33, CD34, CD71, CD235a and isotype control monoclonal antibodies (BD).

Results and Discussion MiR-16 Decreased During K562 Cell Erythroid Differentiation

The inventors' previous miR expression and bio-informatic studies implicated miR-16 as a possible regulator of human myel- and/or erythropoiesis, because of its multiple predicted hematopoietic-expressed mRNA targets, including MEIS1, CREBBP, CD164, HOXA5, and AGTR2⁹. First, the inventors examined miR-16 expression during a time course of hemin-induced K562 model erythroid differentiation and HL-60 model differentiation to multiple terminal cell types. MiR-16 was expressed in both untreated K562 and HL-60 cells. During hemin-induced erythroid differentiation, mir-16 levels increased slightly at very early time points (1-4 hrs), then decreased to low levels at d1. (FIG. 9A) Expression remained low until d7, when the cells were fully differentiated and mir-16 returned to the level present in uninduced K562. In contrast, miR-16 levels did not change in HL60 cells treated with any of 4 different inducers of myeloid differentiation. (FIG. 9B) These expression kinetics indicated that miR-16 may selectively hold erythroid, but not myeloid, progenitor cells at an undifferentiated state. Up-regulation of miR-16 was previously observed in erythroid differentiation, and its expression correlated with the appearance of erythroid cell surface markers such as CD71, CD36, and CD235a⁸. The inventors' expression results confirm that miR-16 expression is higher in fully differentiated cells, and extends the prior study by revealing that mir-16 expression is highly dynamic during erythroid differentiation. Based on this dynamic expression during erythropoiesis, physiologic miR-16 reduction may allow cells to differentiate along the erythroid lineage.

To determine if sustained miR-16 can down-regulate erythropoiesis, the inventors transduced K562 cells with miR-16 and found that benzidine staining (of hemoglobin) was decreased by 78% (data not shown). Furthermore, SILAC proteomics showed that, compared to hemin-treated, control-transduced K562 cells, miR-16-transduced, hemin-treated K562 cells had greatly decreased levels of erythrocyte-associated proteins, including the globins. (FIG. 9C) Enforced expression of miR-16 did not change either cellular apoptosis (assayed by viaprobe/annexin V staining), cell cycling (assayed by propidium iodide staining), or cell growth (assayed by cell counts) (data not shown).

Thus, preventing the physiologic reduction in miR-16 by enforced expression blocked hemin-induced K562 erythroid differentiation.

Mir-16 Suppressed Erythropoiesis of Normal CD34+ HSPC.

The inventors next hypothesized that enforced miR-16 expression would selectively inhibit erythropoiesis of primary human HSPCs. Indeed, miR-16-transduced CD34⁺ cells generated 30% fewer erythroid colonies but only 10% fewer myeloid colonies. (FIG. 10 a) In addition, the erythroid colonies generated by miR-16-transduced CD34⁺ cells were small and diffuse compared to controls, while the myeloid colonies were normal in size and morphology (not shown). In suspension cultures, cells ectopically expressing miR-16 generated 3-fold fewer CD71⁺/CD235a⁺ relatively early erythroid cells and 4-fold fewer later CD71⁺⁺/CD235a⁺⁺ erythroid cells ¹⁶. (FIG. 10 b) In contrast, there was a 30% increase in the frequency of CD33⁺ myeloid cells in the suspension cultures of miR-16-transduced cells, confirming the CFC data that myeloid differentiation was relatively insensitive to mir-16 expression. (FIG. 10 b) Although miR-16 can regulate apoptosis in B lymphoid cells^(3,5) and has also been suggested as a cell cycle inhibitor⁶, the inventors found that apoptosis, cell cycling, and cell counts of mir-16-transduced CD34⁺ cells in suspension cultures were comparable to controls (data not shown).

The inventors' original study of miR expression in HSPCs identified miR-16 as a hematopoietic expressed (HE)-miR, and target annotation indicated it as a possible regulator of erythropoiesis⁹. The inventors also showed that several mRNAs predicted to be miR-16 targets are in fact translationally controlled in hematopoietic cells⁹. In the functional studies herein, the inventors have demonstrated that miR-16 can potently and selectively down-regulate erythropoiesis of both K562 erythroleukemia cells and normal primary CD34⁺ HSPCs.

REFERENCES

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Example 5 miRNAs Expressed by All Stem Cells

Undifferentiated human embryonic stem cells (hESCs) expressed a small set of “ES-microRNAs”, and mir-155 was expressed in day 9 and 14 EBs: Recently, the ability of hESCs 110 to differentiate into hematopoietic lineage cells has been demonstrated in several laboratories, including our own. Differentiation of hESCs, via EBs or upon co-culture with the S17 or OP9 stromal cell line, can give rise to endothelial and hematopoietic cells including hematopoietic CFCs. Our recently reported human hESC/EB-derived hematopoietic model, using the NIH-approved H1 (WA01) hESC cell line, exhibits both waves (primitive and definitive) of human hematopoiesis. Differentiation into hematopoietic cells can be evaluated using cytological staining, monoclonal antibody (Mab)/flow cytometric evaluation for lineage markers, qRT-PCR for hematopoietic transcription factors, and CFC assays. Similar results have been obtained using H9 (WA09) hESCs (unpublished).

Profiling microRNA expression in hematopoietic cells developing from hESCs: Based on our extensive experience with hESC-derived hematopoiesis, we generated and immuno-purified undifferentiated hESCs and differentiating EB cells over a time course of hESC to EB differentiation^(90,111), and microRNAs and mRNAs were assessed in these cells by microarrays and/or qRT-PCR and BioPlex assays. hESCs were transferred from “pluripotent” growth conditions to “EB conditions” where, without PMEFs or cytokines, EBs form and spontaneous differentiation occurs. In characterizing hem-endothelial development in this model system (Zambidis et al. (2005) Blood 106:860), we established that (a) expression of hematopoiesis-associated mRNAs/proteins begins at ˜1 week of EB culture, when these cells produce mainly erythroid progeny containing embryonic hemoglobins (suggesting “embryonic” or “primitive” hematopoiesis); and (b) characteristics of “adult” (or “definitive”) hematopoiesis, such as generation of increased numbers of mono-granulocytic progenitors plus erythroid progenitors producing cells containing fetal and adult hemoglobins, are present at 9-20+ days. Therefore, the following FACS-enriched hematopoietic cell-enriched subsets were harvested at the following critical time points (Zambidis et al. (2005) Blood 106:860):

-   -   (i) Undifferentiated hESCs (CD9⁺/TRA-160⁺ at EB day 0),     -   (ii) Embryonic (“primitive”) erythroid-enriched cells         (CD34⁺/CD31⁻/CD13⁻ at EB day 6),     -   (iii) Embryonic plus some adult-type (“definitive”)         erythroid-enriched cells (CD34⁺/CD31⁻/CD13⁻ at EB day 9), and     -   (iv) Embryonic and adult type erythroid-enriched cells         (CD34⁺/CD31⁻/CD13⁻ at EB day 14).

We have obtained enough cells at each of these time points to perform multiple FACS-analyses and qRT-PCR assays (Zambidis et al. (2005) Blood 106:860). These experiments were done using H1 and then H9 hESC lines. Data from hESCs were entered into our TID, and the microRNAs expressed in both hESC lines were prioritized for comparisons to the subsets obtained from primary adult human and mouse hematopoietic tissues.

Informatic analyses using the TID: Once microRNA and mRNA expression data was obtained, we normalized and analyze the data, using 2 software tools developed by Dr. Georgantas (Georgantas et al. (2007) PNAS 104:2750 and Georgantas et al. (2004) Cancer Res. 64:4434), which can (a) identify changes in microRNA and mRNA expression between chosen sources of hematopoietic cells and stages of erythroid differentiation, and (b) predict, at each of these stages, the effect of individual microRNAs on erythropoiesis by predicting their effects on specific mRNA targets expressed by the same cells.

We found only 9 microRNAs that were expressed in both H1 and H9 hESCs during growth under undifferentiated (“pluripotent”) conditions. 8 of the 9 “ES-microRNAs” are also HE-microRNAs (1 of these 9 (mir-212) was just below the expression level threshold in CD34+ cells; Table 1). We hypothesize that these ES/HE-microRNAs may regulate general sternness properties shared by other types of stem cells. Note also that the ES-microRNAs do not include the mir-155 HE-microRNA or certain other HE-microRNAs predicted to control hematopoiesis: mir-16, -146, -181, or -128; this leads us to suspect that these 5 microRNAs may be more specific for the regulation of hematopoietic differentiation than of general sternness.

Neural and mesenchymal ste r n cells were also investigated. Human neural stem cells (NSC) and mesenchymal stem cells (MSC) were isolated as described in Science 284(5411):143-147 and Stem Cells 24(12)2851-2857. The results indicated that the same miRNAs expressed in human embryonic stem cells were also found to be expressed and forming a similar signature in neural and mesenchyman stem cells (see Table 6).

TABLE 6 MicroRNAs Expressed by All Stem Cells CD34⁺ HSPCs PBSC microRNA RFU² BM RFU hESCs NSC MSC hsa-let-7b 163,441 202,826 87,674 134,000 175,374 hsa-mir-17 169,601 839,361 87,521 2,612,500 585,167 hsa-mir-92-1 4,115,379 5,793,765 478,045 4,290,750 3,146,564 hsa-mir-92- 3,477,367 4,760,875 638,159 4,810,875 3,475,815 2-p hsa-mir-130a 186,958 420,271 95,444 488,850 388,921 hsa-mir-193 104,803 481,103 131,861 116,025 256,445 hsa-mir-197 182,695 231,027 84,921 167,700 145,645 hsa-mir-212 81,476 80,414 95,013 172,350 154,554 (SEQ ID NO: 34) hsa-mir-222 354,343 200,347 94,847 703,500 612,315

Example 6 miRNA-155 is Expressed in Early Hematopoietic Stem Cells

Using qRT-PCR, we assessed levels of mir-155 at 2 time points of EB differentiation of H1 hESCs90. We had previously shown that, in day 9 EBs, hematopoietic cells are mainly embryonic (“primitive”) whereas adult (“definitive”) hematopoietic cells are present by day 14. mir-155 was not detected in undifferentiated hESCs but was expressed at days 9 and 14 of EB differentiation, further circumstantially implicating mir-155 as a hematopoiesis-associated microRNA. Based on TID-predicted target mRNAs, mir-155 may control embryonic hematopoiesis. For example, mir-155 has been recently reported to down-regulate angiotensin receptor II (AGTRII); AGTRII is a new marker for, and may be mechanistically involved in, early embryonic hematopoiesis. Therefore, we have transduced H1 hESCs with our mir-155 lentivector. To date, we have observed no difference in the growth rate of mir-155-transduced vs control-transduced hESCs, under “pluripotent” conditions.

Thus, mir-155 allows hESCs to develop into early embryonic HSPCs, but inhibits further differentiation. These differentiation-arrested cells remain able to expand.

EQUIVALENTS

Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents of the specific embodiments of the invention described herein. Such equivalents are intended to be encompassed by the following claims. 

1. A method for modulating the differentiation of a stem-progenitor cell (SPC), comprising contacting the stem-progenitor cell with one or more nucleic acid molecules, wherein each of the nucleic acid molecules comprises a nucleotide sequence that is at least about 90% identical to a sequence selected from the group consisting of SEQ ID NOs: 1-34 and the complements thereof.
 2. The method of claim 1, wherein the differentiation of the stem-progenitor cell is inhibited, and and wherein each of the nucleic acid molecules comprises a nucleotide sequence that is at least about 90% identical to a sequence selected from the group consisting of SEQ ID NOs: 1-34.
 3. The method of claim 1, wherein the differentiation of the stem-progenitor cell is stimulated, and and wherein each of the nucleic acid molecules comprises a nucleotide sequence that is at least about 90% identical to a sequence selected from the group consisting of the complements of SEQ ID NOs: 1-34.
 4. The method of claim 1, wherein the stem-progenitor cell is a hematopoietic stem-progenitor cell and the nucleotide sequences are selected from the group consisting of the sequences of mir-128a, mir-181a, mir-146, mir-155, mir-24a, mir-17, mir-16, mir-103, mir-107, mir-223, mir-221 and mir-222 and the complements thereof.
 5. The method of claim 4, wherein the hematopoietic stem-progenitor cell is CD34+.
 6. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell beyond the stage of multipotent progenitor cell (MPP) and/or before the stage of common lymphoic progenitor (CLP) or common myeloid progenitor (CMP) is inhibited, and the nucleotide sequences are selected from the group consisting of the sequences of mir-128a, mir-181a, mir-146, mir-155, mir-24a, and mir-17. 7-8. (canceled)
 9. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell beyond the stage of CMP and/or before the stage of B/Mac bi-potential is inhibited, and the nucleotide sequences are selected from the group consisting of the sequences of mir-103 and mir-107.
 10. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell beyond the stage of CMP and/or before the stage of megakaryocyte-erythrocyte progenitor (MEP) is inhibited, and the polynucleotide sequence is that of mir-16.
 11. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell beyond the stage of granulocyte-macrophage progenitor cell (GMP) and/or before the stage of granulocytes is inhibited, and the polynucleotide sequence is that of mir-223.
 12. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell beyond the stage of MEP and/or before the stage of erythrocyte is inhibited, and the nucleotide sequences are selected from the group consisting of the sequences of mir-221 and mir-222.
 13. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell towards the stage of CLP and CMP is stimulated, and the nucleotide sequences are selected from the group consisting of mir-128a, mir-181a, mir-146, mir-155, mir-24a, and mir-17. 14-15. (canceled)
 16. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell towards the stage of B/Mac bi-potential and GMP is stimulated, and the nucleotide sequences are selected from the group consisting of the sequences of mir-103 and mir-107.
 17. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell towards the stage of CMP and/or before the stage of MEP is stimulated, and the polynucleotide sequence is that of mir-16.
 18. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell towards the stage of granulocyte is stimulated, and the polynucleotide sequence is that of mir-223.
 19. The method of claim 4, wherein the differentiation of the hematopoietic stem-progenitor cell towards the stage of erythrocyte is stimulated, and the polynucleotide sequences are selected from the group consisting of the sequences of mir-221 and mir-222.
 20. The method of claim 1, wherein the stem-progenitor cell is a human embryonic stem cell (ESC), a neural stem cell or a mesenchymal stem cell, and the nucleotide sequences are selected from the group consisting of the sequences of let-7b, mir-17, mir-92-1, mir-92-2-p, mir-130a, mir-193, mir-197, mir-212 and mir-222 and the complements thereof. 21-22. (canceled)
 23. The method of claim 1, wherein the contacting is performed in vitro.
 24. (canceled)
 25. The method of claim 4, wherein the cell is a peripheral blood stem-progenitor cell or a bone marrow cell. 26-40. (canceled)
 41. An isolated stem-progenitor cell comprising a heterologous nucleic acid comprises a nucleotide sequence that is at least about 90% identical to a sequence selected from the group consisting of the SEQ ID NOs: 1-34 and the complements thereof.
 42. (canceled)
 43. The isolated stem-progenitor cell of claim 41, which is a hematopoietic cell. 44-54. (canceled)
 55. A method of screening a candidate substance for an effect on hematopoietic cell differentiation, comprising providing a hematopoietic cell that expresses one or more nucleic acids of SEQ ID NOS: 1-34; contacting said hematopoietic cell with said candidate substance; and assessing the effect of said candidate substance on the expression or stability of one or more nucleic acids of SEQ ID NOS: 1-34.
 56. (canceled) 